TR2001-11
A Computationally Efficient Framework for Modeling Soft Body Impact
-
- "A Computationally Efficient Framework for Modeling Soft Body Impact", ACM SIGGRAPH, August 2001. ,
-
Research Area:
Abstract:
While there has been significant progress in simulating collisions between rigid bodies, much remains to be done for modeling interactions between soft bodies. Graphical techniques for representing and deforming soft bodies range from non-physical (e.g., control point-based) to physically plausible (e.g., FFD) to physically realistic (e.g., FEM). All of these techniques require three operations to model interactions between soft bodies: 1) detecting collisions between deforming bodies, 2) computing impact forces when bodies collide, and 3) determining deformation forces or contact deformation of the bodies to initialize a deformation technique. In this report, we propose a new framework which performs all three operations quickly, with efficient use of memory, and more accurately than previous methods. The results of these operations can be used in any of the deformation techniques mentioned above.
Related News & Events
-
NEWS ACM SIGGRAPH 2001: 7 publications by Hanspeter Pfister, Ron Perry and Jeroen van Baar Date: August 12, 2001
Where: ACM SIGGRAPHBrief- The papers "Computing 3D Geometry Directly from Range Images" by Frisken, S.F. and Perry, R.N., "A New Method for Numerical Constrained Optimization" by Perry, R.N., "Dynamic Meshing Using Adaptively Sampled Distance Fields" by Pope, J., Frisken, S.F. and Perry, R.N., "Shadermaps: A Method for Accelerating Procedural Shading" by Jones, T.R., Perry, R.N. and Callahan, M., "A Computationally Efficient Framework for Modeling Soft Body Impact" by Frisken, S.F. and Perry, R.N., "Kizamu: A System for Sculpting Digital Characters" by Perry, R.N. and Frisken, S.F. and "Surface Splatting" by Zwicker, M., Pfister, H., van Baar, J. and Gross, M. were presented at ACM SIGGRAPH.