Add to ORKGWe present a method for achieving geometrical constraint stabilization for a linear-complementarity-based time-stepping scheme for rigid multibody dynamics with joints, contact, and friction. The method requires the solution of only one linear complementarity problem per step. We prove that the velocity stays bounded and that the constraint infeasibility is uniformly bounded in terms of the size of the time step and the current value of the velocity. Several examples, including one for joint-only systems, are used to demonstrate the constraint stabilization eect. Subject Index 65L80, 90C33
International audienceThe main purpose of this paper is to present and discuss a methodology for a d...
This paper presents a formalism for the transient simulation of nonsmooth dynamic mechanical systems...
International audienceWe consider a system of rigid bodies subjected to unilateral constraints with ...
We present a method for achieving geometrical constraint stabilization for a linear-complementarity-...
ABSTRACT We present a method for achieving geometrical constraint stabilization for a linear-complem...
Rigid multibody dynamics is an important area of mathematical modeling which attempts to predict the...
We present a fixed time-step algorithm for the simulation of multi-rigid-body dynamics with joints, ...
We present a method for simulating rigid multibody dynam-ics with joints, contact, and friction. In ...
Rigid multibody dynamics is an important area of mathematical modeling which attempts to predict the...
International audienceWe consider a system of rigid bodies subjected to some non penetration conditi...
International audienceWe consider a system of rigid bodies subjected to some non penetration conditi...
Abstract — In this paper we present an implicit time-stepping scheme for multibody systems with inte...
A time-discrete formulation of the variational principle of mechanics is used to construct a novel f...
A time-discrete formulation of the variational principle of mechanics is used to construct a novel f...
Traditional methods for simulating rigid body dynamics involve determining the current contact arran...
International audienceThe main purpose of this paper is to present and discuss a methodology for a d...
This paper presents a formalism for the transient simulation of nonsmooth dynamic mechanical systems...
International audienceWe consider a system of rigid bodies subjected to unilateral constraints with ...
We present a method for achieving geometrical constraint stabilization for a linear-complementarity-...
ABSTRACT We present a method for achieving geometrical constraint stabilization for a linear-complem...
Rigid multibody dynamics is an important area of mathematical modeling which attempts to predict the...
We present a fixed time-step algorithm for the simulation of multi-rigid-body dynamics with joints, ...
We present a method for simulating rigid multibody dynam-ics with joints, contact, and friction. In ...
Rigid multibody dynamics is an important area of mathematical modeling which attempts to predict the...
International audienceWe consider a system of rigid bodies subjected to some non penetration conditi...
International audienceWe consider a system of rigid bodies subjected to some non penetration conditi...
Abstract — In this paper we present an implicit time-stepping scheme for multibody systems with inte...
A time-discrete formulation of the variational principle of mechanics is used to construct a novel f...
A time-discrete formulation of the variational principle of mechanics is used to construct a novel f...
Traditional methods for simulating rigid body dynamics involve determining the current contact arran...
International audienceThe main purpose of this paper is to present and discuss a methodology for a d...
This paper presents a formalism for the transient simulation of nonsmooth dynamic mechanical systems...
International audienceWe consider a system of rigid bodies subjected to unilateral constraints with ...