Game Development Reference
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Kim, Y., Otaduy, M., Lin, M. & Manocha, D. (2002) Six degree of freedom haptic display
using localized contact computations. In: 10th Symposium on Haptic Interfaces for Virtual
Environment and Teleoperator Systems .
Kim, L., Sukhatme, G. & Desbrun, M. (2004) A haptic-rendering technique based on hybrid
surface representation. IEEE Computer Graphics and Applications . pp. 66-75.
Lécuyer, A., Coquillart, S. & Coiffet, P. (2000) Simulating haptic information with hap-
tic illusions in virtual environments. In: NATO-RTA Human Factors and Medicine Panel
Workshop .
Lombardo, J., Cani, M. & Neyret, F. (1999) Real-time collision detection for virtual surgery.
In: Computer Animation'99 Conference, Genève .
Mark, W., Randolph, S., Van Verth, J. & Taylor, R. (1996) Adding force feedback to graphics
systems: Issues and solutions. In: SIGGRAPH 96 Computer Graphics Proceedings, Computer
Graphics Annual Conference Series, NewOrleans . ACMPress/ACMSIGGRAPH, NewYork.
pp. 447-452.
McNeely, W., Puterbaugh, K. & Troy, J. (1999) Six degree-of-freedom haptic rendering using
voxel sampling. In: SIGGRAPH 99 Computer Graphics Proceedings, Annual Conference
Series (1999), Los Angeles . New York, ACM Press/ACM SIGGRAPH. pp. 401-408.
Mendoza, C. & Laugier, C. (2000) A solution for the difference rate sampling between hap-
tic devices and deformable virtual objects. In: International Symposium on Robotics and
Automation, Monterrey .
Mendoza, C. & Laugier, C. (2001) Realistic haptic rendering for highly deformable virtual
objects. In: IEEE Virtual Reality Conference, Yokohama .
Meseure, P., Lenoir, J., Fonteneau, S. & Chaillou, C. (2004) Generalized god-objects: A
paradigm for interacting with physically-based virtual worlds. In: Magnenat-Thalmann, N.,
Joslin, C. & Kim, H. (eds.) Computer Animation and Social Agents, Geneva . pp. 115-122.
Meyer, T., Andrade-Barroso, G. & Arnaldi, B. Une architecture pour le retour d'efforts. In:
Actes des 15èmes journées de l'AFIG .
Otaduy, M. & Lin, M. (2003) Sensation preserving simplification for haptic rendering. ACM
Transactions on Graphics (Proc. SIGGRAPH 2003) , 22 (3), 543-553.
Picinbono, G. & Lombardo, J. (1999) Extrapolation: A solution for force feedback? In: Virtual
Reality and Prototyping Conference, 7èmes journées du Groupe de Travail Réalité Virtuelle,
Laval . pp. 117-125.
Pocheville, A. &Kheddar, A. (2004) I-touch: A framework for computer haptics. In: Conference
on Intelligent Robots and Systems, Workshop on Touch and Haptics, Sendai .
Ruspini, D., Kolarov, K. & Khatib, O. (1997) The haptic display of complex graphical envi-
ronments. In: SIGGRAPH 97 Computer Graphics Proceedings, Computer Graphics Annual
Conference Series, Los Angeles . New York, ACM Press/ACM SIGGRAPH. pp. 345-352.
Ruspini, D. & Khatib, O. (1998) Dynamic models for haptic rendering systems. In: Advances
in Robot Kinematics, Salzburg . pp. 523-532.
Shaw, C., Liang, J., Green, M. & Sun, Y. (1992) The decoupled simulation model for vir-
tual reality systems. In: Conference on Human Factors in Computing Systems, CHI'92
Proceedings .
Zhuang, Y. & Canny, J. (2000) Haptic interaction with global deformations.
In: IEEE
International Conference on Robotics and Automation, San Francisco .
Zilles, C. & Salisbury, J. (1995) A constraint-based god-object method for haptic display.
In: IEEE/RSJ International Conference on Intelligent Robots and Systems, Pittsburgh .
pp. 146-151.
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