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Main Authors: Zhang, Joy Xiaoji, Lin, Gene Wei-Chin, Bode, Lukas, Chen, Hsiao-yu, Stuyck, Tuur, Larionov, Egor
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2401.15169
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_version_ 1866913212619816960
author Zhang, Joy Xiaoji
Lin, Gene Wei-Chin
Bode, Lukas
Chen, Hsiao-yu
Stuyck, Tuur
Larionov, Egor
author_facet Zhang, Joy Xiaoji
Lin, Gene Wei-Chin
Bode, Lukas
Chen, Hsiao-yu
Stuyck, Tuur
Larionov, Egor
contents Virtual garment simulation has become increasingly important with applications in garment design and virtual try-on. However, reproducing garments faithfully remains a cumbersome process. We propose an end-to-end method for estimating parameters of shell material models corresponding to real fabrics with minimal priors. Our method determines yarn model properties from information directly obtained from real fabrics, unlike methods that require expensive specialized capture systems. We use an extended homogenization method to match yarn-level and shell-level hyperelastic energies with respect to a range of surface deformations represented by the first and second fundamental forms, including bending along the diagonal to warp and weft directions. We optimize the parameters of a shell deformation model involving uncoupled bending and membrane energies. This allows the simulated model to exhibit nonlinearity and anisotropy seen in real cloth. Finally, we validate our results with quantitative and visual comparisons against real world fabrics through stretch tests and drape experiments. Our homogenized shell models not only capture the characteristics of underlying yarn patterns, but also exhibit distinct behaviors for different yarn materials.
format Preprint
id arxiv_https___arxiv_org_abs_2401_15169
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Estimating Cloth Elasticity Parameters From Homogenized Yarn-Level Models
Zhang, Joy Xiaoji
Lin, Gene Wei-Chin
Bode, Lukas
Chen, Hsiao-yu
Stuyck, Tuur
Larionov, Egor
Graphics
Virtual garment simulation has become increasingly important with applications in garment design and virtual try-on. However, reproducing garments faithfully remains a cumbersome process. We propose an end-to-end method for estimating parameters of shell material models corresponding to real fabrics with minimal priors. Our method determines yarn model properties from information directly obtained from real fabrics, unlike methods that require expensive specialized capture systems. We use an extended homogenization method to match yarn-level and shell-level hyperelastic energies with respect to a range of surface deformations represented by the first and second fundamental forms, including bending along the diagonal to warp and weft directions. We optimize the parameters of a shell deformation model involving uncoupled bending and membrane energies. This allows the simulated model to exhibit nonlinearity and anisotropy seen in real cloth. Finally, we validate our results with quantitative and visual comparisons against real world fabrics through stretch tests and drape experiments. Our homogenized shell models not only capture the characteristics of underlying yarn patterns, but also exhibit distinct behaviors for different yarn materials.
title Estimating Cloth Elasticity Parameters From Homogenized Yarn-Level Models
topic Graphics
url https://arxiv.org/abs/2401.15169