Abstract
The EyeSi surgical simulation immerses the surgeon in an environment of real surgical instruments, virtual tissue deformations, and interactive 3D graphics.
- Baciu, G., Wong, W., and Sun, H. Rendering in object interference detection on conventional graphics workstations. In Proceedings of Pacific Graphics (Seoul, Korea, Oct. 13--16). IEEE Computer Society Press, Los Alamitos, CA, 1997, 51--58. Google ScholarDigital Library
- Gibson, S. 3D ChainMail: A fast algorithm for deforming volumetric objects. In Proceedings of the Symposium on Interactive 3D Graphics (Providence, RI, Apr. 27--30). ACM Press, New York, 1997, 149--154. Google ScholarDigital Library
- Harder, B., Bender, H.-J., and Jonas, J. Pars-plana-vitrectomy simulator for learning vitreoretinal surgical steps: First experiences. In Proceedings of Jahrestagung der Deutschen Ophthalmologischen Gesellschaft (Berlin, Sept. 29--Oct. 10). Springer, Berlin, 2001.Google Scholar
- Rabethge, S., Bender, H.-J., and Jonas, J. In-vitro training of membrane- peeling using a pars-plana-vitrectomy-simulator. In Proceedings of Jahrestagung der Deutschen Ophthalmologischen Gesellschaft (Berlin, Sept. 29--Oct. 10). Springer, Berlin, 2001.Google Scholar
- Schill, M. Biomechanical Soft Tissue Modeling Techniques, Implementation, and Application. Ph.D. dissertation, University of Mannheim, 2000.Google Scholar
- Schill, M., Gibson, S., Bender, H.-J., and Männer, R. Biomechanical simulation of the vitreous humor in the eye using an enhanced ChainMail algorithm. In Proceedings of Medical Image Computing and Computer-Assisted Intervention (MICCAI`98) (Cambridge, MA, Oct. 11--13). Springer, Berlin, 1998, 679--687. Google ScholarDigital Library
- Schill, M., Wagner, C., Hennen, M., Bender, H.-J., and Männer, R. Eyesi: A simulator for intra-ocular surgery. In Proceedings of Medical Image Computing and Computer-Assisted Intervention (MICCAI`99), Lecture Notes in Computer Science, vol. 1679, C. Taylor and A. Colchester, Eds. (Cambridge, U.K., Sept. 19--22). Springer, Berlin, 1166--1174. Google ScholarDigital Library
- Shinya, M. and Forge, M. Interference detection through rasterization. J. Visualiz. Comput. Anim. 2, 4 (Oct.--Dec. 1991), 132--134.Google Scholar
- Wei, G., Arbter, K., and Hirzinger, G. Automatic tracking of laparoscopic instruments by color coding. In Proceedings of the First Joint Conference on Computer Vision, Virtual Reality, and Robotics in Medicine and Medical Robotics and Computer-Assisted Surgery (CVRMed-MRCAS`97) (Grenoble, France, Mar. 19--22). Springer, Berlin, 1997, 357--366. Google ScholarDigital Library
Index Terms
- Intraocular surgery on a virtual eye
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