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Pré-Publication, Document De Travail Année : 2023

An efficient implicit constraint resolution scheme for interactive FE simulations

Résumé

This paper presents a novel implicit scheme for the constraint resolution in real-time finite element simulations in the presence of contact and friction. Instead of using the standard motion correction scheme, we propose an iterative method where the constraint forces are corrected in Newton iterations. In this scheme, we are able to update the constraint directions recursively, providing more accurate contact and friction response. However, updating the constraint matrices leads to massive computation costs. To address the issue, we propose separating the constraint direction and geometrical mapping in the contact Jacobian matrix and reformulating the schur-complement of the system matrix. When combined with GPU-based parallelization, the reformulation provides a very efficient updating process for the constraint matrices in the recursive corrective motion scheme. Our method enables the possibility to handle the inconsistency of constraint directions at the beginning and the end of time steps. At the same time, the resolution process is kept as efficient as possible. We evaluate the performance of our fast-updating scheme in a contact simulation and compare it with the standard updating scheme.
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Dates et versions

hal-04125042 , version 1 (11-06-2023)

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Ziqiu Zeng, Hadrien Courtecuisse. An efficient implicit constraint resolution scheme for interactive FE simulations. 2023. ⟨hal-04125042⟩
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