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A unified newton barrier method for multibody dynamics

Yunuo Chen, Minchen Li, Lei Lan, Hao Su, Yin Yang, Chenfanfu Jiang

2022ACM Transactions on Graphics24 citationsDOI

Abstract

We present a simulation framework for multibody dynamics via a universal variational integration. Our method naturally supports mixed rigid-deformables and mixed codimensional geometries, while providing guaranteed numerical convergence and accurate resolution of contact, friction, and a wide range of articulation constraints. We unify (1) the treatment of simulation degrees of freedom for rigid and soft bodies by formulating them both in terms of Lagrangian nodal displacements, (2) the handling of general linear equality joint constraints through an efficient change-of-variable strategy, (3) the enforcement of nonlinear articulation constraints based on novel distance potential energies, (4) the resolution of frictional contact between mixed dimensions and bodies with a variational Incremental Potential Contact formulation, and (5) the modeling of generalized restitution through semi-implicit Rayleigh damping. We conduct extensive unit tests and benchmark studies to demonstrate the efficacy of our method.

Topics & Concepts

Multibody systemDegrees of freedom (physics and chemistry)Contact dynamicsConvergence (economics)Nonlinear systemBenchmark (surveying)Computer scienceContact forceRange (aeronautics)Unilateral contactApplied mathematicsMathematicsClassical mechanicsMathematical optimizationPhysicsFinite element methodEngineeringStructural engineeringAerospace engineeringQuantum mechanicsEconomic growthEconomicsGeographyGeodesyDynamics and Control of Mechanical SystemsRobotic Mechanisms and DynamicsContact Mechanics and Variational Inequalities
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