Time‐Discrete Geodesics in the Space of Shells |
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| Authors: | B. Heeren M. Rumpf M. Wardetzky B. Wirth |
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| Affiliation: | 1. Institute for Numerical Simulation, University of Bonn, Germany;2. Institute of Num. and Appl. Math, University of G?ttingen, Germany;3. Courant Institute, New York University, USA |
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| Abstract: | Building on concepts from continuum mechanics, we offer a computational model for geodesics in the space of thin shells, with a metric that reflects viscous dissipation required to physically deform a thin shell. Different from previous work, we incorporate bending contributions into our deformation energy on top of membrane distortion terms in order to obtain a physically sound notion of distance between shells, which does not require additional smoothing. Our bending energy formulation depends on the so‐called relative Weingarten map, for which we provide a discrete analogue based on principles of discrete differential geometry. Our computational results emphasize the strong impact of physical parameters on the evolution of a shell shape along a geodesic path. |
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| Keywords: | I.3.5 [Computer Graphics]: Computational geometry and object modeling— Physically based modeling |
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