论文信息 - An Energy‐Based Approach for Contact Force Computation

An Energy‐Based Approach for Contact Force Computation

A new approach for computing resting contact forces between solids is presented, which handles both static and sliding friction, while avoiding the problems arising from previous approaches. Each iteration provides values for all unknowns and needs a constant computation time. The first iteration is a global dynamic solution involving inertia and external forces. The subsequent iterations consist of global redistributions of energy through the solids in order to restrict the values within correct bounds, leading to a progressive refinement of the solution. This allows the termination of the computation when a user‐defined level of precision is reached. Convergence is proven in the frictionless case.

François Faure | F. Faure

[1] Michael F. Cohen,et al. Controlling dynamic simulation with kinematic constraints , 1987, SIGGRAPH.

[2] David Baraff,et al. Analytical methods for dynamic simulation of non-penetrating rigid bodies , 1989, SIGGRAPH.

[3] François Faure. Modélisation cinématique du contact pour la dynamique inverse , 1996 .

[4] Jane Wilhelms,et al. Collision Detection and Response for Computer Animation , 1988, SIGGRAPH.

[5] J. Wittenburg,et al. Dynamics of systems of rigid bodies , 1977 .

[6] David Baraff,et al. Fast contact force computation for nonpenetrating rigid bodies , 1994, SIGGRAPH.

[7] G. Dantzig,et al. COMPLEMENTARY PIVOT THEORY OF MATHEMATICAL PROGRAMMING , 1968 .

[8] Per Lötstedt. Numerical Simulation of Time-Dependent Contact and Friction Problems in Rigid Body Mechanics , 1984 .

[9] James K. Hahn,et al. Realistic animation of rigid bodies , 1988, SIGGRAPH.

[10] David Baraff,et al. Coping with friction for non-penetrating rigid body simulation , 1991, SIGGRAPH.