Add to ORKGThe dynamics of multibody systems with many contacts are frequently formulated as a Linear Complementarity Problem (LCP), for which several direct or iterative algorithms are available to solve it efficiently. These formulations rely on discretized friction models that approximate the friction cone of the Coulomb model to a pyramid. However, they produce rank-deficient LCPs even though the physical problem does not have constraint redundancy and has a unique solution. Here, a new discretized friction model is presented which results in an LCP formulation with a full-rank lead matrix. This model relies on an inertial term to couple the equations of the model, which behaves as close to the Coulomb model as the other discretized models. Moreov...
We present a novel approach to handling frictional contacts for deformable body simulations. Our con...
This paper proposes an iterative method that can simulate mechanical systems featuring a large numbe...
Thesis (Ph. D.)--University of Washington, 2008.A widely-accepted technique for the analysis of rigi...
The dynamics of multibody systems with many contacts are frequently formulated as a Linear Complemen...
In this article, the non-smooth contact dynamics of multi-body systems is formulated as a complement...
Simulation of large-scale multibody systems with unilateral contacts requires formulations with whic...
Simulation of large-scale multibody systems with unilateral contacts requires formulations with whic...
Simulation of large-scale multibody systems with unilateral contacts requires formulations with whic...
Complementarity formulations are a promising approach for solving dynamic multi-rigid-body contact p...
. In this paper, we study the problem of predicting the acceleration of a set of rigid, 3-dimensiona...
This technical brief revisits the method outlined in [1], which was introduced to solve the multibod...
The objective is to combine the dynamical problem of multi-rigid-body systems under non-smooth const...
We present a fixed time-step algorithm for the simulation of multi-rigid-body dynamics with joints, ...
International audienceThis paper deals with the frictional contact occurring between deformable elas...
In this paper, we provide a full instruction on how to formulate and evaluate planar frictional cont...
We present a novel approach to handling frictional contacts for deformable body simulations. Our con...
This paper proposes an iterative method that can simulate mechanical systems featuring a large numbe...
Thesis (Ph. D.)--University of Washington, 2008.A widely-accepted technique for the analysis of rigi...
The dynamics of multibody systems with many contacts are frequently formulated as a Linear Complemen...
In this article, the non-smooth contact dynamics of multi-body systems is formulated as a complement...
Simulation of large-scale multibody systems with unilateral contacts requires formulations with whic...
Simulation of large-scale multibody systems with unilateral contacts requires formulations with whic...
Simulation of large-scale multibody systems with unilateral contacts requires formulations with whic...
Complementarity formulations are a promising approach for solving dynamic multi-rigid-body contact p...
. In this paper, we study the problem of predicting the acceleration of a set of rigid, 3-dimensiona...
This technical brief revisits the method outlined in [1], which was introduced to solve the multibod...
The objective is to combine the dynamical problem of multi-rigid-body systems under non-smooth const...
We present a fixed time-step algorithm for the simulation of multi-rigid-body dynamics with joints, ...
International audienceThis paper deals with the frictional contact occurring between deformable elas...
In this paper, we provide a full instruction on how to formulate and evaluate planar frictional cont...
We present a novel approach to handling frictional contacts for deformable body simulations. Our con...
This paper proposes an iterative method that can simulate mechanical systems featuring a large numbe...
Thesis (Ph. D.)--University of Washington, 2008.A widely-accepted technique for the analysis of rigi...