Abstract: We compare several different second-order splitting algorithms for the asymmetric rigid body, with the aim of determining which one produces the smallest energy error for a given rigid body, namely, for given moments of inertia. The investigation is based on the analysis of the dominant term of the modified Hamiltonian and indicates that different algorithms can produce energy errors which differ by several orders of magnitude. As a byproduct of this analysis we remark that, for the special case of a flat rigid body with moments of inertia proportional to (1, 0.75 0.25), one of the considered algorithms is in fact of order four
In the dynamics of multibody systems that consist of interconnected rigid and de-formable bodies, it...
Abstract We present two methods for generating trajectories and motion interpolants that minimize en...
Abstract: This work presents the application to the dynamics of multibody systems of three methods b...
This article investigates the use of the computation of the exact free rigid body motion as a compon...
Energy-momentum conserving methods are developed for rigid body dynamics with contact. Because these...
SIGLEAvailable from British Library Document Supply Centre-DSC:9106.1605(1997/11) / BLDSC - British ...
Abstract. Linearizations of the Saint Venant-Kirchoff model for elastic bodies are often considered ...
International audienceIn several recent publications, numerical integrators based on Jacobi elliptic...
This note is concerned with the numerical technique of operator splitting for initial value problems...
This note is concerned with the numerical technique of operator splitting for initial value problems...
The rigid body has been one of the most noteworthy applications of Newtonian mechanics. Applying the...
A new paradigm for rigid body simulation is presented and analyzed. Current techniques for rigid bod...
In this article we describe a stable partitioned algorithm that overcomes the added mass instability...
The aim of the proposed work is to clarify the dynamic behaviour of asymmetric bodies in the case of...
A rigid body model for the dynamics of a marine vessel, used in simulations of offshore pipe-lay ope...
In the dynamics of multibody systems that consist of interconnected rigid and de-formable bodies, it...
Abstract We present two methods for generating trajectories and motion interpolants that minimize en...
Abstract: This work presents the application to the dynamics of multibody systems of three methods b...
This article investigates the use of the computation of the exact free rigid body motion as a compon...
Energy-momentum conserving methods are developed for rigid body dynamics with contact. Because these...
SIGLEAvailable from British Library Document Supply Centre-DSC:9106.1605(1997/11) / BLDSC - British ...
Abstract. Linearizations of the Saint Venant-Kirchoff model for elastic bodies are often considered ...
International audienceIn several recent publications, numerical integrators based on Jacobi elliptic...
This note is concerned with the numerical technique of operator splitting for initial value problems...
This note is concerned with the numerical technique of operator splitting for initial value problems...
The rigid body has been one of the most noteworthy applications of Newtonian mechanics. Applying the...
A new paradigm for rigid body simulation is presented and analyzed. Current techniques for rigid bod...
In this article we describe a stable partitioned algorithm that overcomes the added mass instability...
The aim of the proposed work is to clarify the dynamic behaviour of asymmetric bodies in the case of...
A rigid body model for the dynamics of a marine vessel, used in simulations of offshore pipe-lay ope...
In the dynamics of multibody systems that consist of interconnected rigid and de-formable bodies, it...
Abstract We present two methods for generating trajectories and motion interpolants that minimize en...
Abstract: This work presents the application to the dynamics of multibody systems of three methods b...