Collision Detection for Deformable Objects
Identifieur interne : 000918 ( France/Analysis ); précédent : 000917; suivant : 000919Collision Detection for Deformable Objects
Auteurs : M. Teschner [Allemagne] ; S. Kimmerle [Allemagne] ; B. Heidelberger [Suisse] ; G. Zachmann [Allemagne] ; L. Raghupathi [France] ; A. Fuhrmann [Allemagne] ; M. Cani [France] ; F. Faure [France] ; N. Magnenat Halmann [Suisse] ; W. Strasser [Allemagne] ; P. Volino [Suisse]Source :
- Computer Graphics Forum [ 0167-7055 ] ; 2005-03.
English descriptors
- KwdEn :
- I.3.5 Computer Graphics: Computational Geometry and Object Modeling, I.3.7 Computer Graphics: Three‐Dimensional Graphics and Realism, bounding‐volume hierarchy, continuous collision detection, deformable collision detection, distance field, image‐space collision detection, self‐collision detection, spatial subdivision, stochastic collision detection.
Abstract
Interactive environments for dynamically deforming objects play an important role in surgery simulation and entertainment technology. These environments require fast deformable models and very efficient collision handling techniques. While collision detection for rigid bodies is well investigated, collision detection for deformable objects introduces additional challenging problems. This paper focuses on these aspects and summarizes recent research in the area of deformable collision detection. Various approaches based on bounding volume hierarchies, distance fields and spatial partitioning are discussed. In addition, image‐space techniques and stochastic methods are considered. Applications in cloth modeling and surgical simulation are presented.
Url:
DOI: 10.1111/j.1467-8659.2005.00829.x
Affiliations:
- Allemagne, France, Suisse
- Canton de Genève, Canton de Zurich, District de Darmstadt, Hesse (Land)
- Darmstadt, Genève, Zurich
- Université de Genève, École polytechnique fédérale de Zurich
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ISTEX:0753D1DE4CE226D444469D6550F2904F92AD5EB8Le document en format XML
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These environments require fast deformable models and very efficient collision handling techniques. While collision detection for rigid bodies is well investigated, collision detection for deformable objects introduces additional challenging problems. This paper focuses on these aspects and summarizes recent research in the area of deformable collision detection. Various approaches based on bounding volume hierarchies, distance fields and spatial partitioning are discussed. In addition, image‐space techniques and stochastic methods are considered. 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