Title :
Fast penetration depth estimation for elastic bodies using deformed distance fields
Author :
Fisher, Susan ; Lin, Ming C.
Author_Institution :
Dept. of Comput. Sci., North Carolina Univ., Chapel Hill, NC, USA
Abstract :
We present a fast penetration depth estimation algorithm between deformable polyhedral objects. We assume the continuum of non-rigid models are discretized using standard techniques, such as finite element or finite difference methods. As the objects deform, the pre-computed distance fields are deformed accordingly to estimate the penetration depth, allowing an enforcement of non-penetration constraints between two colliding elastic bodies. This approach can automatically handle self-penetration and inter-penetration in a uniform manner. We demonstrate its effectiveness on moderately complex simulation scenes
Keywords :
computational geometry; finite element analysis; flexible structures; interpolation; parameter estimation; contact force; deformable polyhedral objects; elastic bodies; finite element analysis; geometric models; interpolation; penetration depth estimation; polygonal meshes; robotics; Computational modeling; Computer science; Deformable models; Finite difference methods; Finite element methods; Hardware; Intelligent robots; Layout; Robotics and automation; Virtual prototyping;
Conference_Titel :
Intelligent Robots and Systems, 2001. Proceedings. 2001 IEEE/RSJ International Conference on
Conference_Location :
Maui, HI
Print_ISBN :
0-7803-6612-3
DOI :
10.1109/IROS.2001.973379
