28 July 2018

Rigid Body Contact Problems using Proximal Operators

Digital Prototyping and Computational Contact Mechanics

Novel adaptive r-factor schemes for iterative proximal operator schemes for contact mechanics

Author

Kenny Erleben

Abstract

Iterative methods are popular for solving contact force problems in rigid body dynamics. They are loved for their robustness and surrounded by mystery as to whether they converge or not. We provide a mathematical foundation for iterative (PROX) schemes based on proximal operators. This is a class of iterative Jacobi and blocked Gauss-Seidel variants that theoretically proven always converge and provides a flexible plug and play framework for exploring different friction laws. We provide a portfolio of experience for choosing r-Factor strategies for such schemes and we analyze the distribution of convergence behaviors. Our results indicate the Gauss-Seidel variant is superior in terms of delivering predictable convergence behavior and hence should be preferred over Jacobi variants. Our results also suggest that Global r -Factor strategies are better for structured stacking scenarios and can achieve absolute convergence in more cases.

Videos

https://youtu.be/CFRNLi6VE_8

https://youtu.be/Ja7U0uD1hGE