Holonic Learning: A Flexible Agent-based Distributed Machine Learning Framework (2401.10839v1)
Abstract: Ever-increasing ubiquity of data and computational resources in the last decade have propelled a notable transition in the machine learning paradigm towards more distributed approaches. Such a transition seeks to not only tackle the scalability and resource distribution challenges but also to address pressing privacy and security concerns. To contribute to the ongoing discourse, this paper introduces Holonic Learning (HoL), a collaborative and privacy-focused learning framework designed for training deep learning models. By leveraging holonic concepts, the HoL framework establishes a structured self-similar hierarchy in the learning process, enabling more nuanced control over collaborations through the individual model aggregation approach of each holon, along with their intra-holon commitment and communication patterns. HoL, in its general form, provides extensive design and flexibility potentials. For empirical analysis and to demonstrate its effectiveness, this paper implements HoloAvg, a special variant of HoL that employs weighted averaging for model aggregation across all holons. The convergence of the proposed method is validated through experiments on both IID and Non-IID settings of the standard MNISt dataset. Furthermore, the performance behaviors of HoL are investigated under various holarchical designs and data distribution scenarios. The presented results affirm HoL's prowess in delivering competitive performance particularly, in the context of the Non-IID data distribution.
- Hierarchical federated learning across heterogeneous cellular networks. In ICASSP 2020-2020 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP). IEEE, 8866–8870.
- José Barbosa. 2015. Self-organized and evolvable holonic architecture for manufacturing control. Ph.D. Dissertation. Université de Valenciennes et du Hainaut-Cambresis.
- SmartDFRelevance: a holonic agent based system for engineering industrial projects in concurrent engineering context. In Artificial Intelligence and Industrial Applications: Smart Operation Management. Springer, 103–123.
- Fritjof Capra. 1984. The turning point: Science, society, and the rising culture. Bantam.
- HAMLET: A Hierarchical Agent-Based Machine Learning Platform. ACM Trans. Auton. Adapt. Syst. 16, 3–4, Article 9 (jul 2022), 46 pages. https://doi.org/10.1145/3530191
- A Socially-Based Distributed Self-Organizing Algorithm for Holonic Multi-Agent Systems. Cogn. Syst. Res. 43, C (2017), 21–44. https://doi.org/10.1016/j.cogsys.2016.12.001
- Holonic multiagent systems: A foundation for the organisation of multiagent systems. In International conference on industrial applications of holonic and multi-agent systems. Springer, 71–80.
- Holonic multi-agent systems. Technical Report. German Research Center for Artificial Intelligence (DFKI).
- Otkrist Gupta and Ramesh Raskar. 2018. Distributed learning of deep neural network over multiple agents. Journal of Network and Computer Applications 116 (2018), 1–8.
- An Adaptative Agent Architecture for Holonic Multi-Agent Systems. ACM Trans. Auton. Adapt. Syst. 3, 1, Article 2 (mar 2008), 24 pages. https://doi.org/10.1145/1342171.1342173
- Multi-stage hybrid federated learning over large-scale D2D-enabled fog networks. IEEE/ACM transactions on networking 30, 4 (2022), 1569–1584.
- Collaborative Deep Learning in Fixed Topology Networks. In Proceedings of the 31st International Conference on Neural Information Processing Systems (Long Beach, California, USA) (NIPS’17). Curran Associates Inc., Red Hook, NY, USA, 5906–5916.
- Advances and open problems in federated learning. Foundations and Trends® in Machine Learning 14, 1–2 (2021), 1–210.
- Arthur Koestler. 1968. The ghost in the machine. Macmillan.
- Arthur Koestler. 1978. Janus: A Summing Up. Random House.
- Client-edge-cloud hierarchical federated learning. In ICC 2020-2020 IEEE International Conference on Communications (ICC). IEEE, 1–6.
- Communication-efficient learning of deep networks from decentralized data. In Artificial intelligence and statistics. PMLR, 1273–1282.
- Hierarchical and Decentralised Federated Learning. arXiv preprint arXiv:2304.14982 (2023).
- Federated learning over wireless networks: Optimization model design and analysis. In IEEE INFOCOM 2019-IEEE conference on computer communications. IEEE, 1387–1395.
- Mihaela Ulieru. 2002. Emergence of holonic enterprises from multi-agent systems: A fuzzy-evolutionary approach. Soft Computing Agents: A new perspective on dynamic information systems (2002), 187–215.
- Holonic manufacturing systems. Integrated Computer-Aided Engineering 4, 3 (1997), 191–201.
- Decentralized Collaborative Learning of Personalized Models over Networks. In Proceedings of the 20th International Conference on Artificial Intelligence and Statistics (Proceedings of Machine Learning Research, Vol. 54), Aarti Singh and Jerry Zhu (Eds.). PMLR, 509–517. https://proceedings.mlr.press/v54/vanhaesebrouck17a.html
- Split learning for health: Distributed deep learning without sharing raw patient data. arXiv preprint arXiv:1812.00564 (2018).
- Adaptive federated learning in resource constrained edge computing systems. IEEE journal on selected areas in communications 37, 6 (2019), 1205–1221.
- Adaptive hierarchical federated learning over wireless networks. IEEE Transactions on Vehicular Technology 71, 2 (2021), 2070–2083.
- Federated machine learning: Concept and applications. ACM Transactions on Intelligent Systems and Technology (TIST) 10, 2 (2019), 1–19.
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