Litcius/Paper detail

A Finite Element Formulation of Baraff‐Witkin Cloth

Theodore Kim

2020Computer Graphics Forum34 citationsDOI

Abstract

Abstract The Baraff‐Witkin [BW98] model has been a popular formulation for cloth for 20 years. However, its relationship to the finite element method (FEM) has always been unclear, because the model resists being written as an isotropic, hyperelastic strain energy. In this paper, we show that this is because the Baraff‐Witkin model is actually a coupled anisotropic strain energy. We show that its stretching term approximates the isotropic As‐Rigid‐As‐Possible (ARAP) energy, and its shearing term is a cross‐fiber coupling energy common in biomechanics. While it has been known empirically for some time that the model can produce indefinite force Jacobians, the conditions under which they occur has never been clear. Our formulation enables a complete eigenanalysis that precisely characterizes exactly when indefiniteness occurs, and leads to fast, analytic, semi‐positive‐definite projection methods. Finally, our analysis suggests a generalized Baraff‐Witkin energy with non‐orthogonal warp and weft directions.

Topics & Concepts

Hyperelastic materialIsotropyFinite element methodShearing (physics)Strain energy density functionCoupling (piping)AnisotropyComputer scienceClassical mechanicsPhysicsMechanical engineeringOpticsEngineeringThermodynamicsCellular Mechanics and InteractionsElasticity and Material ModelingBlood properties and coagulation