Increasingly, robots have more degrees of freedom (DOF), imposing a need for calculating more complex dynamics. As a result, better efficiency in carrying out dynamics computations is becoming more important. In this study, an efficient method for computing the joint space inertia matrix (JSIM) for high DOF serially linked robots is addressed. We call this method the Geometric Dynamics Algorithm for High number of robot Joints (GDAHJ). GDAHJ is non-symbolic, preserve simple formulation, and it is convenient for numerical implementation. This is achieved by simplifying the way to recursively derive the mass-matrix exploiting the unique property of each column of the JSIM and minimizing the number of operations with O(n2) complexity. Results ...
This paper describes a new method for calculating the acceleration of a robot in response to given a...
INTRODUCTION. The robot dynamics modeling and simulation problem has been studied for the last th...
The application of general control theory to complex mechanical systems represents an extremely diff...
Increasingly, robots have more degrees of freedom (DOF), imposing a need for calculating more comple...
Abstract An algorithm that calculates the feasible robot joints’ accelerations based on a new forwa...
AbstractThe Jacobian matrix for machinery systems is challenging due to the kinematic structure, the...
In this dissertation I introduce a new notation for representing rigid-body dynamics, and use it to...
Christoffel symbols of the first kind are very important in robot dynamics. They are used for tuning...
In this paper an approach for the application of parallel processing to the dynamic analysis of robo...
This paper presents a new method for calculating operational-space inertia matrices, and other relat...
This paper presents a new method for calculating operational-space inertia matrices, and other relat...
A diagonal equation _ + C(;) = for robot dynamics is developed by combining recent mass matrix fa...
The development of an O(log2N) parallel algorithm for the manipulator inertia matrix is presented. I...
In order to increase the operational speed and positional accuracy of robotic mechanisms, on-line fo...
This paper describes new factorization algorithms that exploit branch-induced sparsity in the joint-...
This paper describes a new method for calculating the acceleration of a robot in response to given a...
INTRODUCTION. The robot dynamics modeling and simulation problem has been studied for the last th...
The application of general control theory to complex mechanical systems represents an extremely diff...
Increasingly, robots have more degrees of freedom (DOF), imposing a need for calculating more comple...
Abstract An algorithm that calculates the feasible robot joints’ accelerations based on a new forwa...
AbstractThe Jacobian matrix for machinery systems is challenging due to the kinematic structure, the...
In this dissertation I introduce a new notation for representing rigid-body dynamics, and use it to...
Christoffel symbols of the first kind are very important in robot dynamics. They are used for tuning...
In this paper an approach for the application of parallel processing to the dynamic analysis of robo...
This paper presents a new method for calculating operational-space inertia matrices, and other relat...
This paper presents a new method for calculating operational-space inertia matrices, and other relat...
A diagonal equation _ + C(;) = for robot dynamics is developed by combining recent mass matrix fa...
The development of an O(log2N) parallel algorithm for the manipulator inertia matrix is presented. I...
In order to increase the operational speed and positional accuracy of robotic mechanisms, on-line fo...
This paper describes new factorization algorithms that exploit branch-induced sparsity in the joint-...
This paper describes a new method for calculating the acceleration of a robot in response to given a...
INTRODUCTION. The robot dynamics modeling and simulation problem has been studied for the last th...
The application of general control theory to complex mechanical systems represents an extremely diff...