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Combating Confirmation Bias: A Unified Pseudo-Labeling Framework for Entity Alignment
Published 5 Jul 2023 in cs.AI, cs.CL, and cs.LG | (2307.02075v4)
Abstract: Entity alignment (EA) aims at identifying equivalent entity pairs across different knowledge graphs (KGs) that refer to the same real-world identity. To circumvent the shortage of seed alignments provided for training, recent EA models utilize pseudo-labeling strategies to iteratively add unaligned entity pairs predicted with high confidence to the seed alignments for model training. However, the adverse impact of confirmation bias during pseudo-labeling has been largely overlooked, thus hindering entity alignment performance. To systematically combat confirmation bias for pseudo-labeling-based entity alignment, we propose a Unified Pseudo-Labeling framework for Entity Alignment (UPL-EA) that explicitly eliminates pseudo-labeling errors to boost the accuracy of entity alignment. UPL-EA consists of two complementary components: (1) Optimal Transport (OT)-based pseudo-labeling uses discrete OT modeling as an effective means to determine entity correspondences and reduce erroneous matches across two KGs. An effective criterion is derived to infer pseudo-labeled alignments that satisfy one-to-one correspondences; (2) Parallel pseudo-label ensembling refines pseudo-labeled alignments by combining predictions over multiple models independently trained in parallel. The ensembled pseudo-labeled alignments are thereafter used to augment seed alignments to reinforce subsequent model training for alignment inference. The effectiveness of UPL-EA in eliminating pseudo-labeling errors is both theoretically supported and experimentally validated. Our extensive results and in-depth analyses demonstrate the superiority of UPL-EA over 15 competitive baselines and its utility as a general pseudo-labeling framework for entity alignment.
- Bollacker K, Evans C, Paritosh P, et al (2008) Freebase: a collaboratively created graph database for structuring human knowledge. In: SIGMOD, pp 1247–1250 Bordes et al [2013] Bordes A, Usunier N, Garcia-Durán A, et al (2013) Translating embeddings for modeling multi-relational data. In: NeurIPS, pp 2787–2795 Cascante-Bonilla et al [2021] Cascante-Bonilla P, Tan F, Qi Y, et al (2021) Curriculum labeling: Revisiting pseudo-labeling for semi-supervised learning. In: AAAI, pp 6912–6920 Chen et al [2020] Chen L, Gan Z, Cheng Y, et al (2020) Graph optimal transport for cross-domain alignment. In: ICML, pp 1542–1553 Chen et al [2017] Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Bordes A, Usunier N, Garcia-Durán A, et al (2013) Translating embeddings for modeling multi-relational data. In: NeurIPS, pp 2787–2795 Cascante-Bonilla et al [2021] Cascante-Bonilla P, Tan F, Qi Y, et al (2021) Curriculum labeling: Revisiting pseudo-labeling for semi-supervised learning. In: AAAI, pp 6912–6920 Chen et al [2020] Chen L, Gan Z, Cheng Y, et al (2020) Graph optimal transport for cross-domain alignment. In: ICML, pp 1542–1553 Chen et al [2017] Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Cascante-Bonilla P, Tan F, Qi Y, et al (2021) Curriculum labeling: Revisiting pseudo-labeling for semi-supervised learning. In: AAAI, pp 6912–6920 Chen et al [2020] Chen L, Gan Z, Cheng Y, et al (2020) Graph optimal transport for cross-domain alignment. In: ICML, pp 1542–1553 Chen et al [2017] Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Chen L, Gan Z, Cheng Y, et al (2020) Graph optimal transport for cross-domain alignment. In: ICML, pp 1542–1553 Chen et al [2017] Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Bordes A, Usunier N, Garcia-Durán A, et al (2013) Translating embeddings for modeling multi-relational data. In: NeurIPS, pp 2787–2795 Cascante-Bonilla et al [2021] Cascante-Bonilla P, Tan F, Qi Y, et al (2021) Curriculum labeling: Revisiting pseudo-labeling for semi-supervised learning. In: AAAI, pp 6912–6920 Chen et al [2020] Chen L, Gan Z, Cheng Y, et al (2020) Graph optimal transport for cross-domain alignment. In: ICML, pp 1542–1553 Chen et al [2017] Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Cascante-Bonilla P, Tan F, Qi Y, et al (2021) Curriculum labeling: Revisiting pseudo-labeling for semi-supervised learning. In: AAAI, pp 6912–6920 Chen et al [2020] Chen L, Gan Z, Cheng Y, et al (2020) Graph optimal transport for cross-domain alignment. In: ICML, pp 1542–1553 Chen et al [2017] Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Chen L, Gan Z, Cheng Y, et al (2020) Graph optimal transport for cross-domain alignment. In: ICML, pp 1542–1553 Chen et al [2017] Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Cascante-Bonilla P, Tan F, Qi Y, et al (2021) Curriculum labeling: Revisiting pseudo-labeling for semi-supervised learning. In: AAAI, pp 6912–6920 Chen et al [2020] Chen L, Gan Z, Cheng Y, et al (2020) Graph optimal transport for cross-domain alignment. In: ICML, pp 1542–1553 Chen et al [2017] Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Chen L, Gan Z, Cheng Y, et al (2020) Graph optimal transport for cross-domain alignment. In: ICML, pp 1542–1553 Chen et al [2017] Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Chen L, Gan Z, Cheng Y, et al (2020) Graph optimal transport for cross-domain alignment. In: ICML, pp 1542–1553 Chen et al [2017] Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Chen M, Tian Y, Yang M, et al (2017) Multilingual knowledge graph embeddings for cross-lingual knowledge alignment. In: IJCAI, pp 1511–1517 Cuturi [2013] Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Cuturi M (2013) Sinkhorn distances: Lightspeed computation of optimal transport. In: NeurIPS, pp 2292–2300 Devlin et al [2019] Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Devlin J, Chang M, Lee K, et al (2019) BERT: pre-training of deep bidirectional transformers for language understanding. In: NAACL-HLT, ACL, pp 4171–4186 Ding et al [2022] Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Ding Q, Zhang D, Yin J (2022) Conflict-aware pseudo labeling via optimal transport for entity alignment. In: ICDM, IEEE, pp 915–920 Guo et al [2019] Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Guo L, Sun Z, Hu W (2019) Learning to exploit long-term relational dependencies in knowledge graphs. In: ICML, pp 2505–2514 Guo et al [2022] Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Guo Q, Zhuang F, Qin C, et al (2022) A survey on knowledge graph-based recommender systems. IEEE Transactions on Knowledge and Data Engineering 34(8):3549–3568 Kipf and Welling [2017] Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Kipf TN, Welling M (2017) Semi-supervised classification with graph convolutional networks. In: ICLR Lee [2013] Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Lee DH (2013) Pseudo-label: The simple and efficient semi-supervised learning method for deep neural networks. In: ICML Workshop: Challenges in Representation Learning, p 896 Li et al [2018] Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Li Q, Han Z, Wu X (2018) Deeper insights into graph convolutional networks for semi-supervised learning. In: AAAI, pp 3538–3545 Li et al [2023] Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Li Y, Yin J, Chen L (2023) Informative pseudo-labeling for graph neural networks with few labels. Data Mining and Knowledge Discovery 37:228––254 Liu et al [2022] Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Liu X, Hong H, Wang X, et al (2022) Selfkg: Self-supervised entity alignment in knowledge graphs. In: WWW, pp 860–870 Mao et al [2020] Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Mao X, Wang W, Xu H, et al (2020) Mraea: an efficient and robust entity alignment approach for cross-lingual knowledge graph. In: WSDM, pp 420–428 Mao et al [2022] Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Mao X, Wang W, Wu Y, et al (2022) Lightea: A scalable, robust, and interpretable entity alignment framework via three-view label propagation. In: EMNLP, pp 825–838 Maretic et al [2019] Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Maretic HP, Gheche ME, Chierchia G, et al (2019) GOT: an optimal transport framework for graph comparison. In: NeurIPS, pp 13876–13887 Orlin [1997] Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Orlin JB (1997) A polynomial time primal network simplex algorithm for minimum cost flows. Mathematical Programming 78:109–129 Paulheim [2017] Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Paulheim H (2017) Knowledge graph refinement: A survey of approaches and evaluation methods. Semantic Web 8(3):489–508 Pei et al [2019] Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Pei S, Yu L, Zhang X (2019) Improving cross-lingual entity alignment via optimal transport. IJCAI, pp 3231–3237 Pennington et al [2014] Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Pennington J, Socher R, Manning CD (2014) Glove: Global vectors for word representation. In: EMNLP, pp 1532–1543 Pham et al [2021] Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Pham H, Xie Q, Dai Z, et al (2021) Meta pseudo labels. In: CVPR, pp 11557–11568 Raunak et al [2019] Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Raunak V, Gupta V, Metze F (2019) Effective dimensionality reduction for word embeddings. In: The 4th Workshop on Representation Learning for NLP, pp 235–243 Rizve et al [2021] Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Rizve MN, Duarte K, Rawat YS, et al (2021) In defense of pseudo-labeling: An uncertainty-aware pseudo-label selection framework for semi-supervised learning. In: ICLR Sajjadi et al [2016] Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Sajjadi M, Javanmardi M, Tasdizen T (2016) Mutual exclusivity loss for semi-supervised deep learning. In: ICIP, pp 1908–1912 Shi et al [2018] Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Shi W, Gong Y, Ding C, et al (2018) Transductive semi-supervised deep learning using min-max features. In: ECCV 2018, pp 311–327 Srivastava et al [2015] Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Srivastava RK, Greff K, Schmidhuber J (2015) Highway networks. In: ICML Workshop: Deep Learning Suchanek et al [2007] Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Suchanek FM, Kasneci G, Weikum G (2007) Yago: a core of semantic knowledge. In: WWW, pp 697–706 Sun et al [2020] Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Sun K, Zhu Z, Lin Z (2020) Multi-stage self-supervised learning for graph convolutional networks. In: AAAI, pp 5892–5899 Sun et al [2017] Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Sun Z, Hu W, Li C (2017) Cross-lingual entity alignment via joint attribute-preserving embedding. In: ISWC, pp 628–644 Sun et al [2018] Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Sun Z, Hu W, Zhang Q, et al (2018) Bootstrapping entity alignment with knowledge graph embedding. In: IJCAI, pp 4396–4402 Tang et al [2023] Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Tang J, Zhang W, Li J, et al (2023) Robust attributed graph alignment via joint structure learning and optimal transport. arXiv preprint arXiv:230112721 Tarvainen and Valpola [2017] Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Tarvainen A, Valpola H (2017) Mean teachers are better role models: Weight-averaged consistency targets improve semi-supervised deep learning results. In: NeurIPS, pp 1195–1204 Titouan et al [2019] Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Titouan V, Courty N, Tavenard R, et al (2019) Optimal transport for structured data with application on graphs. In: ICML, pp 6275–6284 Torres et al [2021] Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Torres LC, Pereira LM, Amini MH (2021) A survey on optimal transport for machine learning: Theory and applications. arXiv preprint arXiv:210601963 Villani [2009] Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Villani C (2009) Optimal transport: old and new, vol 338. Springer Vrandečić and Krötzsch [2014] Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Vrandečić D, Krötzsch M (2014) Wikidata: a free collaborative knowledge base. Communications of the ACM 57(10):78–85 Wächter and Biegler [2006] Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Wächter A, Biegler LT (2006) On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming. Mathematical Programming 106:25–57 Wang et al [2014] Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Wang Z, Zhang J, Feng J, et al (2014) Knowledge graph embedding by translating on hyperplanes. In: AAAI, pp 1112–1119 Wang et al [2018] Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Wang Z, Lv Q, Lan X, et al (2018) Cross-lingual knowledge graph alignment via graph convolutional networks. In: EMNLP, pp 349–357 Wu et al [2019a] Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Wu Y, Liu X, Feng Y, et al (2019a) Relation-aware entity alignment for heterogeneous knowledge graphs. In: IJCAI, pp 5278–5284 Wu et al [2019b] Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Wu Y, Liu X, Feng Y, et al (2019b) Jointly learning entity and relation representations for entity alignment. In: EMNLP/IJCNLP, pp 240–249 Xu et al [2019a] Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Xu H, Luo D, Carin L (2019a) Scalable gromov-wasserstein learning for graph partitioning and matching. In: NeurIPS, pp 3046–3056 Xu et al [2019b] Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Xu H, Luo D, Zha H, et al (2019b) Gromov-wasserstein learning for graph matching and node embedding. In: ICML, pp 6932–6941 Yang et al [2019] Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Yang H, Zou Y, Shi P, et al (2019) Aligning cross-lingual entities with multi-aspect information. In: EMNLP/IJCNLP, pp 4430–4440 Yang et al [2023] Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Yang Y, Lv H, Chen N (2023) A survey on ensemble learning under the era of deep learning. Artificial Intellegence Review 56(6):5545–5589 Yang et al [2018] Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Yang Z, Qi P, Zhang S, et al (2018) Hotpotqa: A dataset for diverse, explainable multi-hop question answering. In: EMNLP, pp 2369–2380 Zeng et al [2020] Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Zeng W, Zhao X, Tang J, et al (2020) Collective entity alignment via adaptive features. In: ICDE, IEEE, pp 1870–1873 Zhang et al [2021] Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Zhang B, Wang Y, Hou W, et al (2021) Flexmatch: Boosting semi-supervised learning with curriculum pseudo labeling. In: NeurIPS, pp 18408–18419 Zhao et al [2020] Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Zhao X, Zeng W, Tang J, et al (2020) An experimental study of state-of-the-art entity alignment approaches. IEEE Transactions on Knowledge & Data Engineering (01):1–1 Zhu et al [2017] Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Zhu H, Xie R, Liu Z, et al (2017) Iterative entity alignment via knowledge embeddings. In: IJCAI, pp 4258–4264 Zhu et al [2021] Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756 Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
- Zhu Y, Liu H, Wu Z, et al (2021) Relation-aware neighborhood matching model for entity alignment. In: AAAI, pp 4749–4756
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