Add to ORKGThe formulation of a method known as the joint coordinate method for automatic generation of the equations of motion for multibody systems is summarized. For systems containing open or closed kinematic loops, the equations of motion can be reduced systematically to a minimum number of second order differential equations. The application of recursive and nonrecursive algorithms to this formulation, computational considerations and the feasibility of implementing this formulation on multiprocessor computers are discussed
In the framework of a rotationless formulation for multibody systems, we present an investigation of...
The main objective of this research is the development of a framework for the automatic generation o...
The efficient computation of multibody systems dynamic equations certainly remains of a great import...
The paper discusses some developments in the coordinate partitioning method for the dynamic analysis...
The purpose of this paper was to present the key features of a novel coordinate formulation for the ...
The purpose of this paper was to present the key features of a novel coordinate formulation for the ...
This paper describes a multibody dynamics algorithm formulated for parallel implementation on multip...
The purpose of this paper was to present the key features of a novel coordinate formulation for the ...
Over the years a considerable effort has been focused on the development of methods and computationa...
This paper draws attention to the advantages that may arise in the dynamic analysis or constrained m...
A variational-vector calculus approach is employed to derive a recursive formulation for dynamic ana...
The modelling of flexible elements in mechanical systems has been investigated via several methods i...
Computationally efficient approaches to the solution of the dynamics of multibody systems are presen...
The equations of motion of a multibody system are nonlinear in nature, and thus pose a difficult pro...
Since the late 1980's, research in recursive formulations of multibody dynamics has flourished. Hist...
In the framework of a rotationless formulation for multibody systems, we present an investigation of...
The main objective of this research is the development of a framework for the automatic generation o...
The efficient computation of multibody systems dynamic equations certainly remains of a great import...
The paper discusses some developments in the coordinate partitioning method for the dynamic analysis...
The purpose of this paper was to present the key features of a novel coordinate formulation for the ...
The purpose of this paper was to present the key features of a novel coordinate formulation for the ...
This paper describes a multibody dynamics algorithm formulated for parallel implementation on multip...
The purpose of this paper was to present the key features of a novel coordinate formulation for the ...
Over the years a considerable effort has been focused on the development of methods and computationa...
This paper draws attention to the advantages that may arise in the dynamic analysis or constrained m...
A variational-vector calculus approach is employed to derive a recursive formulation for dynamic ana...
The modelling of flexible elements in mechanical systems has been investigated via several methods i...
Computationally efficient approaches to the solution of the dynamics of multibody systems are presen...
The equations of motion of a multibody system are nonlinear in nature, and thus pose a difficult pro...
Since the late 1980's, research in recursive formulations of multibody dynamics has flourished. Hist...
In the framework of a rotationless formulation for multibody systems, we present an investigation of...
The main objective of this research is the development of a framework for the automatic generation o...
The efficient computation of multibody systems dynamic equations certainly remains of a great import...