Title :
Incremental penetration depth estimation between convex polytopes using dual-space expansion
Author :
Kim, Young J. ; Lin, Ming C. ; Manocha, Dinesh
Author_Institution :
Ewha Womans Univ., Seoul, South Korea
Abstract :
We present a fast algorithm to estimate the penetration depth between convex polytopes in 3D. The algorithm incrementally seeks a "locally optimal solution" by walking on the surface of the Minkowski sums. The surface of the Minkowski sums is computed implicitly by constructing a local dual mapping on the Gauss map. We also present three heuristic techniques that are used to estimate the initial features used by the walking algorithm. We have implemented the algorithm and compared its performance with earlier approaches. In our experiments, the algorithm is able to estimate the penetration depth in about a milli-second on an 1 GHz Pentium PC. Moreover, its performance is almost independent of model complexity in environments with high coherence between successive instances.
Keywords :
computational complexity; computational geometry; rendering (computer graphics); solid modelling; 3D convex polytope; Gauss map; Minkowski sum; dual-space expansion; haptic rendering; heuristic technique; incremental algorithm; model complexity; penetration depth estimation; Coherence; Computational modeling; Euclidean distance; Gaussian processes; Haptic interfaces; Legged locomotion; Motion planning; Robot motion; Virtual environment; Algorithms; Computer Graphics; Computer Simulation; Depth Perception; Image Enhancement; Image Interpretation, Computer-Assisted; Imaging, Three-Dimensional; Information Storage and Retrieval; Numerical Analysis, Computer-Assisted; Pattern Recognition, Automated; Photogrammetry; Reproducibility of Results; Sensitivity and Specificity; Signal Processing, Computer-Assisted; User-Computer Interface;
Journal_Title :
Visualization and Computer Graphics, IEEE Transactions on
DOI :
10.1109/TVCG.2004.1260767
