“FASTCD: fracturing-aware stable collision detection” by Heo, Kim, Seong, Hong, Tang, et al. …
Conference:
Type:
Entry Number: 108
Title:
- FASTCD: fracturing-aware stable collision detection
Presenter(s)/Author(s):
Abstract:
Simulating complex phenomena such as fracture requires collision detection (CD) methods to avoid any inter-collisions among deforming models and self-collisions (i.e. intra-collisions) within each deforming model. CD is typically the main computational bottleneck of simulating such complex phenomena.
References:
Tang, M., Curtis, S., Yoon, S.-E., and Manocha, D. 2008. Interactive continuous collision detection between deformable models using connectivity-based culling. ACM Symp. on Solid and Physical Modeling, 25–36. Google ScholarDigital Library
Teschner, M., Heidelberger, B., Muller, M., Pomeranets, D., and Gross, M. 2003. Optimized spatial hashing for collision detection of deformable objects. In Proc. of Vision, Modeling and Visualization, 47–54.Google Scholar
Volino, P., and Thalmann, N. M. 1994. Efficient self-collision detection on smoothly discretized surface animations using geometrical shape regularity. Computer Graphics Forum (EuroGraphics Proc.) 13, 3, 155–166.Google ScholarCross Ref
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