DiffCloth: Differentiable Cloth Simulation with Dry Frictional Contact
Li, Yifei, Du, Tao, Wu, Kui, Xu, Jie, Matusik, Wojciech
–arXiv.org Artificial Intelligence
Cloth simulation has wide applications in computer animation, garment design, and robot-assisted dressing. This work presents a differentiable cloth simulator whose additional gradient information facilitates cloth-related applications. Our differentiable simulator extends a state-of-the-art cloth simulator based on Projective Dynamics (PD) and with dry frictional contact. We draw inspiration from previous work to propose a fast and novel method for deriving gradients in PD-based cloth simulation with dry frictional contact. Furthermore, we conduct a comprehensive analysis and evaluation of the usefulness of gradients in contact-rich cloth simulation. Finally, we demonstrate the efficacy of our simulator in a number of downstream applications, including system identification, trajectory optimization for assisted dressing, closed-loop control, inverse design, and real-to-sim transfer. We observe a substantial speedup obtained from using our gradient information in solving most of these applications.
arXiv.org Artificial Intelligence
Jul-17-2022
- Country:
- Asia (0.04)
- North America
- United States
- New York > New York County
- New York City (0.04)
- Massachusetts
- Middlesex County > Cambridge (0.14)
- Suffolk County > Boston (0.04)
- California
- Los Angeles County > Los Angeles (0.14)
- San Mateo County > Burlingame (0.04)
- San Diego County > San Diego (0.04)
- New York > New York County
- Canada > British Columbia
- United States
- Europe > Austria
- Vienna (0.14)
- Genre:
- Research Report > Promising Solution (0.34)
- Industry:
- Energy (0.48)
- Technology: