Abstract
Training systems for dental implantology that are based on virtual reality need a precise haptic feedback with six Degrees of Freedom (6DoF) This is particularly challenging when using real patient data for the jawbone and during the interactive simulation of drilling. In this paper, we present our simulator and two complementary contributions: The first one is a method for 6DoF haptic rendering of contacts between the drilling tool and the jawbone model issued from a CT-scan. The second one is a fast simulation of the jawbone erosion during drilling which is relevant for 6DoF haptic rendering.
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References
Binon, P.P.: Treatment planning complications and surgical miscues. J. of Oral and Maxillofacial Surgery 65(7, Suppl. 1), 73–92 (2007)
Ortega, M., Redon, S., Coquillart, S.: A six degree-of-freedom god-object method for haptic display of rigid bodies. In: IEEE Virtual Reality Conf., pp. 191–198 (2006)
Lin, M.C., Otaduy, M.A. (eds.): Haptic rendering: Foundations, algorithms and applications. AK Peters (2008)
McNeely, W.A., Puterbaugh, K.D., Troy, J.j.: Six degree-of-freedom haptic rendering using voxel sampling (1999)
Petersik, A., Pflesser, B., Tiede, U., Hoehne, K.H., Leuwer, R.: Haptic volume interaction with anatomic models at sub-voxel resolution (2002)
Edmunds, T., Pai, D.K.: Perceptual rendering for learning haptic skills. In: Proceedings of the Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems, Reno, Nevada, USA (2008)
Zilles, C.B., Salisbury, J.K.: A constraint-based god-object method for haptic display (1995)
Kim, L., Sukhatme, G., Desbrun, M.: A haptic-rendering technique based on hybrid surface representation. IEEE Computer Graphics and Applications 24(2), 66–75 (2004)
McNeely, W.A., Puterbaugh, K.D., Troy, J.: Voxel-based 6-dof haptic rendering improvements. Haptic-e 3(7) (January 2006)
Barlit, A., Harders, M.: Gpu-based distance map calculation for vector field haptic rendering. In: WHC 2007: Proceedings of the Second Joint EuroHaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems, Washington, DC, USA, pp. 589–590. IEEE Computer Society, Los Alamitos (2007)
Agus, M., Giachetti, A., Gobbetti, E., Zannetti, G., Zorcolo, A.: A multiprocessor decoupled system for the simulation of temporal bone surgery. Computing and Visualization in Science (5), 35–43 (2002)
Agus, M., Brelstaff, G.J., Giachetti, A., Gobbetti, E., Zanetti, G., Zorcolo, A., Picasso, B., Franceschini, S.S.: Physics-based burr haptic simulation: Tuning and evaluation. In: International Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems, pp. 128–135 (2004)
Morris, D., Sewell, C., Barbagli, F., Salisbury, K., Blevins, N.H., Girod, S.: Visuohaptic simulation of bone surgery for training and evaluation. IEEE Computer Graphics and Application (6), 48–57 (2006)
Wang, S.M., Chiou, C.H., Cheng, Y.M.: An improved dynamic cutting force model for end-milling process. Journal Mater. Process. Technol. 148, 317–327 (2004)
Marras, I., Papaleontiou, L., Nikolaidis, N., Lyroudia, K., Pitas, I.: Virtual dental patient: a system for virtual teeth drilling. In: 2006 IEEE International Conference on Multimedia and Expo, July 2006, pp. 665–668 (2006)
Kusumoto, N., Sohmura, T., Yamada, S., Wakabayashi, K., Nakamura, T., Yatani, H.: Application of virtual reality force feedback haptic device for oral implant surgery. Clin. Oral Impl. Res. (17), 708–713 (2006)
Ohtani, T., Kusumoto, N., Wakabayashi, K., Yamada, S., Nakamura, T., Kumazawa, Y., Yatani, H., Sohmura, T.: Application of haptic device to implant dentistry - accuracy verification of drilling into a pig bone. Dental Materials Journal 28(1), 75–81 (2009)
Kim, L., Hwang, Y., Park, S., Ha, S.: Dental training system using multi-modal interface. Computer-Aided Design and Applications 2, 591–598 (2005)
Liu, G., Zhang, Y., Wang, D., Townsend, W.T.: Stable haptic interaction using a damping model to implement a realistic tooth-cutting simulation for dental training. Virtual Reality 12(2), 99–106 (2008)
Duriez, C., dubois, F., Andriot, C., Kheddar, A.: Realistic haptic rendering of interacting deformable objects in virtual environments. IEEE Transactions on Visualization and Computer Graphics 12(1), 36–47 (2006)
Sjogreen, K., Ljungberg, M., Strand, S.E.: An Activity Quantification Method Based on Registration of CT and Whole-Body Scintillation Camera Images, with Application to 131I. J. Nucl. Med. 43(7), 972–982 (2002)
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Syllebranque, C., Duriez, C. (2010). Six Degree-of Freedom Haptic Rendering for Dental Implantology Simulation. In: Bello, F., Cotin, S. (eds) Biomedical Simulation. ISBMS 2010. Lecture Notes in Computer Science, vol 5958. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-11615-5_15
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DOI: https://doi.org/10.1007/978-3-642-11615-5_15
Publisher Name: Springer, Berlin, Heidelberg
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