2000 character limit reached
An Endoscopic Chisel: Intraoperative Imaging Carves 3D Anatomical Models (2402.11840v1)
Published 19 Feb 2024 in cs.CV
Abstract: Purpose: Preoperative imaging plays a pivotal role in sinus surgery where CTs offer patient-specific insights of complex anatomy, enabling real-time intraoperative navigation to complement endoscopy imaging. However, surgery elicits anatomical changes not represented in the preoperative model, generating an inaccurate basis for navigation during surgery progression. Methods: We propose a first vision-based approach to update the preoperative 3D anatomical model leveraging intraoperative endoscopic video for navigated sinus surgery where relative camera poses are known. We rely on comparisons of intraoperative monocular depth estimates and preoperative depth renders to identify modified regions. The new depths are integrated in these regions through volumetric fusion in a truncated signed distance function representation to generate an intraoperative 3D model that reflects tissue manipulation. Results: We quantitatively evaluate our approach by sequentially updating models for a five-step surgical progression in an ex vivo specimen. We compute the error between correspondences from the updated model and ground-truth intraoperative CT in the region of anatomical modification. The resulting models show a decrease in error during surgical progression as opposed to increasing when no update is employed. Conclusion: Our findings suggest that preoperative 3D anatomical models can be updated using intraoperative endoscopy video in navigated sinus surgery. Future work will investigate improvements to monocular depth estimation as well as removing the need for external navigation systems. The resulting ability to continuously update the patient model may provide surgeons with a more precise understanding of the current anatomical state and paves the way toward a digital twin paradigm for sinus surgery.
- Moubayed, S.P., Most, S.P.: Evaluation and management of the nasal airway. Clinics in Plastic Surgery 49(1), 23–31 (2022) Lee et al. [2021] Lee, K.-I., In, S.M., Kim, J.-Y., Hong, J.-Y., Han, K.-D., Kim, J.-S., Jung, Y.G.: Association of nasal septal deviation with the incidence of anxiety, depression, and migraine: A national population-based study. Plos one 16(11), 0259468 (2021) Wyler and Mallon [2019] Wyler, B., Mallon, W.: Sinusitis update. Emergency Medicine Clinics of North America 37, 41–54 (2019) https://doi.org/10.1016/j.emc.2018.09.007 Lethbridge-Cejku et al. [2004] Lethbridge-Cejku, M., Schiller, J., Bernadel, L.: Summary health statistics for u.s. adults: National health interview survey, 2002. Vital and health statistics. Series 10, Data from the National Health Survey 10, 1–151 (2004) Liu et al. [2019] Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lee, K.-I., In, S.M., Kim, J.-Y., Hong, J.-Y., Han, K.-D., Kim, J.-S., Jung, Y.G.: Association of nasal septal deviation with the incidence of anxiety, depression, and migraine: A national population-based study. Plos one 16(11), 0259468 (2021) Wyler and Mallon [2019] Wyler, B., Mallon, W.: Sinusitis update. Emergency Medicine Clinics of North America 37, 41–54 (2019) https://doi.org/10.1016/j.emc.2018.09.007 Lethbridge-Cejku et al. [2004] Lethbridge-Cejku, M., Schiller, J., Bernadel, L.: Summary health statistics for u.s. adults: National health interview survey, 2002. Vital and health statistics. Series 10, Data from the National Health Survey 10, 1–151 (2004) Liu et al. [2019] Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wyler, B., Mallon, W.: Sinusitis update. Emergency Medicine Clinics of North America 37, 41–54 (2019) https://doi.org/10.1016/j.emc.2018.09.007 Lethbridge-Cejku et al. [2004] Lethbridge-Cejku, M., Schiller, J., Bernadel, L.: Summary health statistics for u.s. adults: National health interview survey, 2002. Vital and health statistics. Series 10, Data from the National Health Survey 10, 1–151 (2004) Liu et al. [2019] Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lethbridge-Cejku, M., Schiller, J., Bernadel, L.: Summary health statistics for u.s. adults: National health interview survey, 2002. Vital and health statistics. Series 10, Data from the National Health Survey 10, 1–151 (2004) Liu et al. [2019] Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Lee, K.-I., In, S.M., Kim, J.-Y., Hong, J.-Y., Han, K.-D., Kim, J.-S., Jung, Y.G.: Association of nasal septal deviation with the incidence of anxiety, depression, and migraine: A national population-based study. Plos one 16(11), 0259468 (2021) Wyler and Mallon [2019] Wyler, B., Mallon, W.: Sinusitis update. Emergency Medicine Clinics of North America 37, 41–54 (2019) https://doi.org/10.1016/j.emc.2018.09.007 Lethbridge-Cejku et al. [2004] Lethbridge-Cejku, M., Schiller, J., Bernadel, L.: Summary health statistics for u.s. adults: National health interview survey, 2002. Vital and health statistics. Series 10, Data from the National Health Survey 10, 1–151 (2004) Liu et al. [2019] Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wyler, B., Mallon, W.: Sinusitis update. Emergency Medicine Clinics of North America 37, 41–54 (2019) https://doi.org/10.1016/j.emc.2018.09.007 Lethbridge-Cejku et al. [2004] Lethbridge-Cejku, M., Schiller, J., Bernadel, L.: Summary health statistics for u.s. adults: National health interview survey, 2002. Vital and health statistics. Series 10, Data from the National Health Survey 10, 1–151 (2004) Liu et al. [2019] Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lethbridge-Cejku, M., Schiller, J., Bernadel, L.: Summary health statistics for u.s. adults: National health interview survey, 2002. Vital and health statistics. Series 10, Data from the National Health Survey 10, 1–151 (2004) Liu et al. [2019] Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Wyler, B., Mallon, W.: Sinusitis update. Emergency Medicine Clinics of North America 37, 41–54 (2019) https://doi.org/10.1016/j.emc.2018.09.007 Lethbridge-Cejku et al. [2004] Lethbridge-Cejku, M., Schiller, J., Bernadel, L.: Summary health statistics for u.s. adults: National health interview survey, 2002. Vital and health statistics. Series 10, Data from the National Health Survey 10, 1–151 (2004) Liu et al. [2019] Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lethbridge-Cejku, M., Schiller, J., Bernadel, L.: Summary health statistics for u.s. adults: National health interview survey, 2002. Vital and health statistics. Series 10, Data from the National Health Survey 10, 1–151 (2004) Liu et al. [2019] Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Lethbridge-Cejku, M., Schiller, J., Bernadel, L.: Summary health statistics for u.s. adults: National health interview survey, 2002. Vital and health statistics. Series 10, Data from the National Health Survey 10, 1–151 (2004) Liu et al. [2019] Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Liu, X., Sinha, A., Ishii, M., Hager, G.D., Reiter, A., Taylor, R.H., Unberath, M.: Dense depth estimation in monocular endoscopy with self-supervised learning methods. IEEE TMI 39(5), 1438–1447 (2019) Liu et al. [2020] Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Liu, X., Stiber, M., Huang, J., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Reconstructing sinus anatomy from endoscopic video–towards a radiation-free approach for quantitative longitudinal assessment. In: MICCAI 2020, pp. 3–13 (2020). Springer Liu et al. [2022] Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Liu, X., Li, Z., Ishii, M., Hager, G.D., Taylor, R.H., Unberath, M.: Sage: slam with appearance and geometry prior for endoscopy. In: 2022 ICRA, pp. 5587–5593 (2022). IEEE Hernández et al. [2023] Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Hernández, I., Soberanis-Mukul, R., Mangulabnan, J.E., Sahu, M., Winter, J., Vedula, S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: Investigating keypoint descriptors for camera relocalization in endoscopy surgery. IJCARS, 1–8 (2023) Chen et al. [2021] Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Chen, F., Cui, X., Han, B., Liu, J., Zhang, X., Liao, H.: Augmented reality navigation for minimally invasive knee surgery using enhanced arthroscopy. Computer Methods and Programs in Biomedicine 201, 105952 (2021) Hu et al. [2007] Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Hu, J., Jin, X., Lee, J.B., Zhang, L., Chaudhary, V., Guthikonda, M., Yang, K.H., King, A.I.: Intraoperative brain shift prediction using a 3d inhomogeneous patient-specific finite element model. J Neurosurg 106(1), 164–169 (2007) Miga et al. [2000] Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Miga, M.I., Paulsen, K.D., Hoopes, P.J., Kennedy, F.E., Hartov, A., Roberts, D.W.: In vivo quantification of a homogeneous brain deformation model for updating preoperative images during surgery. IEEE TBME 47(2), 266–273 (2000) François et al. [2021] François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- François, T., Calvet, L., Sève-d’Erceville, C., Bourdel, N., Bartoli, A.: Image-based incision detection for topological intraoperative 3d model update in augmented reality assisted laparoscopic surgery. In: MICCAI 2021, pp. 647–656 (2021). Springer Chalasani et al. [2016] Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Chalasani, P., Wang, L., Roy, R., Simaan, N., Taylor, R.H., Kobilarov, M.: Concurrent nonparametric estimation of organ geometry and tissue stiffness using continuous adaptive palpation. In: 2016 ICRA, pp. 4164–4171 (2016). IEEE Wang et al. [2017] Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Wang, L., Chen, Z., Chalasani, P., Yasin, R.M., Kazanzides, P., Taylor, R.H., Simaan, N.: Force-controlled exploration for updating virtual fixture geometry in model-mediated telemanipulation. Journal of Mechanisms and Robotics 9(2), 021010 (2017) Yasin et al. [2020] Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Yasin, R., Chalasani, P., Zevallos, N., Shahbazi, M., Li, Z., Deguet, A., Kazanzides, P., Choset, H., Taylor, R.H., Simaan, N.: Evaluation of hybrid control and palpation assistance for situational awareness in telemanipulated task execution. IEEE T-MRB 3(1), 31–43 (2020) Shi et al. [2022] Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Shi, Y., Deng, X., Tong, Y., Li, R., Zhang, Y., Ren, L., Si, W.: Synergistic digital twin and holographic augmented-reality-guided percutaneous puncture of respiratory liver tumor. IEEE THMS 52(6), 1364–1374 (2022) Munawar et al. [2023] Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Munawar, A., Li, Z., Nagururu, N., Trakimas, D., Kazanzides, P., Taylor, R.H., Creighton, F.X.: Fully immersive virtual reality for skull-base surgery: surgical training and beyond. IJCARS, 1–9 (2023) Shu et al. [2023] Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Shu, H., Liang, R., Li, Z., Goodridge, A., Zhang, X., Ding, H., Nagururu, N., Sahu, M., Creighton, F.X., Taylor, R.H., et al.: Twin-s: a digital twin for skull base surgery. IJCARS, 1–8 (2023) Zach et al. [2007] Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Zach, C., Pock, T., Bischof, H.: A globally optimal algorithm for robust tv-l1 range image integration, pp. 1–8 (2007). https://doi.org/10.1109/ICCV.2007.4408983 Curless and Levoy [1996] Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Curless, B., Levoy, M.: A volumetric method for building complex models from range images. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques (1996) Lorensen and Cline [1987] Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Lorensen, W., Cline, H.: Marching cubes: A high resolution 3d surface construction algorithm. ACM SIGGRAPH Computer Graphics 21, 163 (1987) Zeng et al. [2017] Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Zeng, A., Song, S., Nießner, M., Fisher, M., Xiao, J., Funkhouser, T.: 3dmatch: Learning local geometric descriptors from rgb-d reconstructions. In: CVPR (2017) Mangulabnan et al. [2023] Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Mangulabnan, J.E., Soberanis-Mukul, R.D., Teufel, T., Hernández, I., Winter, J., Sahu, M., Porras, J.L., Vedula, S.S., Ishii, M., Hager, G., Taylor, R.H., Unberath, M.: A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video (2023) Strobl and Hirzinger [2006] Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Strobl, K., Hirzinger, G.: Optimal hand-eye calibration, pp. 4647–4653 (2006). https://doi.org/10.1109/IROS.2006.282250 Zhou et al. [2018] Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018) Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)
- Zhou, Q.-Y., Park, J., Koltun, V.: Open3d: A modern library for 3d data processing. arXiv preprint arXiv:1801.09847 (2018)