An efficient O(mN) algorithm for dynamic simulation of simple closed-chain robotic mechanisms is presented, where m is the number of chains, and N is the number of degrees of freedom for each chain. It is based on computation of the operational space inertia matrix (6 x 6) for each chain as seen by the body, load, or object. Also, computation of the chain dynamics, when opened at one end, is required, and the most efficient algorithm is used for this purpose. Parallel implementation of the dynamics for each chain results in an O(N) + O(log sub 2 m+1) algorithm
We describe models and algorithms designed to produce efficient and physically consistent dynamic si...
The computational problem of inverse kinematics and inverse dynamics of robot manipulators by taking...
In this paper, parallel O(log n) algorithms for computation of rigid multibody dynamics are develope...
A parallel processing scheme for a single chain robot arm is presented for high speed computation on...
M.Ing. (Mechanical Engineering)This dissertation presents and explains methods for the dynamic model...
In this paper an approach for the application of parallel processing to the dynamic analysis of robo...
A multibody dynamics formulation has been developed for the purposes of real-time simulation of lar...
The formulation of an Order (n) algorithm for DISCOS (Dynamics Interaction Simulation of Controls an...
This paper describes a multibody dynamics algorithm formulated for parallel implementation on multip...
Computationally efficient approaches to the solution of the dynamics of multibody systems are presen...
The algorithms used for solving the forward dynamics problem of a complex multibody system are essen...
The subject of this thesis is the efficient numerical modeling of multiple degree-of-freedom (DOF) r...
Abstract In this paper, it is shown how to obtain recursive dynamics algorithms for multibody system...
The development of an O(log2N) parallel algorithm for the manipulator inertia matrix is presented. I...
Abstract. A methodology for the formulation of dynamic equations of motion of a serial flexible-link...
We describe models and algorithms designed to produce efficient and physically consistent dynamic si...
The computational problem of inverse kinematics and inverse dynamics of robot manipulators by taking...
In this paper, parallel O(log n) algorithms for computation of rigid multibody dynamics are develope...
A parallel processing scheme for a single chain robot arm is presented for high speed computation on...
M.Ing. (Mechanical Engineering)This dissertation presents and explains methods for the dynamic model...
In this paper an approach for the application of parallel processing to the dynamic analysis of robo...
A multibody dynamics formulation has been developed for the purposes of real-time simulation of lar...
The formulation of an Order (n) algorithm for DISCOS (Dynamics Interaction Simulation of Controls an...
This paper describes a multibody dynamics algorithm formulated for parallel implementation on multip...
Computationally efficient approaches to the solution of the dynamics of multibody systems are presen...
The algorithms used for solving the forward dynamics problem of a complex multibody system are essen...
The subject of this thesis is the efficient numerical modeling of multiple degree-of-freedom (DOF) r...
Abstract In this paper, it is shown how to obtain recursive dynamics algorithms for multibody system...
The development of an O(log2N) parallel algorithm for the manipulator inertia matrix is presented. I...
Abstract. A methodology for the formulation of dynamic equations of motion of a serial flexible-link...
We describe models and algorithms designed to produce efficient and physically consistent dynamic si...
The computational problem of inverse kinematics and inverse dynamics of robot manipulators by taking...
In this paper, parallel O(log n) algorithms for computation of rigid multibody dynamics are develope...