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Macroscopic and microscopic deformation coupling in up‐sampled cloth simulation
Author(s) -
Saito Shunsuke,
Umetani Nobuyuki,
Morishima Shigeo
Publication year - 2014
Publication title -
computer animation and virtual worlds
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.225
H-Index - 49
eISSN - 1546-427X
pISSN - 1546-4261
DOI - 10.1002/cav.1589
Subject(s) - deformation (meteorology) , computer science , polygon mesh , anisotropy , stiffness , displacement (psychology) , coupling (piping) , animation , scale (ratio) , mechanics , computational science , computer graphics (images) , materials science , physics , optics , composite material , psychology , quantum mechanics , psychotherapist
Various methods of predicting the deformation of fine‐scale cloth from coarser resolutions have been explored. However, the influence of fine‐scale deformation has not been considered in coarse‐scale simulations. Thus, the simulation of highly nonhomogeneous detailed cloth is prone to large errors. We introduce an effective method to simulate cloth made of nonhomogeneous, anisotropic materials. We precompute a macroscopic stiffness that incorporates anisotropy from the microscopic structure, using the deformation computed for each unit strain. At every time step of the simulation, we compute the deformation of coarse meshes using the coarsened stiffness, which saves computational time and add higher‐level details constructed by the characteristic displacement of simulated meshes. We demonstrate that anisotropic and inhomogeneous cloth models can be simulated efficiently using our method. © 2014 The Authors. Computer Animation and Virtual Worlds published by John Wiley & Sons, Ltd.