Title :
Dynamic deformable models for enhanced haptic rendering in virtual environments
Author :
Ramanathan, Rungun ; Metaxas, Dimitris
Author_Institution :
Dept. of Comput. & Inf. Sci., Pennsylvania Univ., Philadelphia, PA, USA
Abstract :
Currently there are no deformable model implementations that model a wide range of geometric deformations while providing realistic force feedback for use in virtual environments with haptics. The few models that exist are computationally very expensive, are limited in terms of shape coverage and do not provide proper haptic feedback. We use dynamic deformable models with local and global deformations governed by physical principles in order to provide efficient and true force feedback. We extend the shape class of Deformable Superquadrics (DeSuq) to provide compact geometric representation using few parameters, while at the same time providing realistic haptic viscoelastic feedback. Dynamics associated with rigid and deformable bodies are modeled by the use of the Lagrange equations. Implementation of these is currently under progress using GHOSTTM libraries on a PHANToMTM haptic device
Keywords :
force feedback; haptic interfaces; interactive devices; rendering (computer graphics); virtual reality; viscoelasticity; DeSuq; Deformable Superquadrics; GHOST libraries; Lagrange equations; PHANToM haptic device; compact geometric representation; deformable bodies; deformable model implementations; dynamic deformable models; enhanced haptic rendering; force feedback; geometric deformations; global deformations; haptic feedback; realistic force feedback; realistic haptic viscoelastic feedback; shape class; shape coverage; virtual environments; Deformable models; Elasticity; Equations; Force feedback; Haptic interfaces; Lagrangian functions; Shape; Solid modeling; Virtual environment; Viscosity;
Conference_Titel :
Virtual Reality, 2000. Proceedings. IEEE
Conference_Location :
New Brunswick, NJ
Print_ISBN :
0-7695-0478-7
DOI :
10.1109/VR.2000.840360
