Mridul Aanjaneya
[PHOTO] Department of Computer Science
Rutgers University
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A Generalized Constitutive Model for Versatile MPM Simulation and Inverse Learning with Differentiable Physics

Haozhe Su*, Xuan Li*, Tao Xue, Chenfanfu Jiang and Mridul Aanjaneya (*Joint first authors)
Proceedings of the ACM in Computer Graphics and Interactive Techniques (SCA proceedings), 6, 3, 49:1-20, (2023)

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Abstract: We present a generalized constitutive model for versatile physics simulation of inviscid fluids, Newtonian viscosity, hyperelasticity, viscoplasticity, elastoplasticity, and other physical effects that arise due to a mixture of these behaviors. The key ideas behind our formulation are the design of a generalized Kirchhoff stress tensor that can describe hyperelasticity, Newtonian viscosity and inviscid fluids, and the use of pre-projection and post-correction rules for simulating material behaviors that involve plasticity, including elastoplasticity and viscoplasticity. We show how our generalized Kirchhoff stress tensor can be coupled together into a generalized constitutive model that allows the simulation of diverse material behaviors by only changing parameter values. We present several side-by-side comparisons with physics simulations for specific constitutive models to show that our generalized model produces visually similar results. More notably, our formulation allows for inverse learning of unknown material properties directly from data using differentiable physics simulations. We present several 3D simulations to highlight the robustness of our method, even with multiple different materials. To the best of our knowledge, our approach is the first to recover the knowledge of unknown material properties without making explicit assumptions about the data.

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