Add to ORKGThe kinematics, dynamics, Jacobian, and their corresponding inverse computations are six essential problems in the control of robot manipulators. Efficient parallel algorithms for these computations are discussed and analyzed. Their characteristics are identified and a scheme on the mapping of these algorithms to a reconfigurable parallel architecture is presented. Based on the characteristics including type of parallelism, degree of parallelism, uniformity of the operations, fundamental operations, data dependencies, and communication requirement, it is shown that most of the algorithms for robotic computations possess highly regular properties and some common structures, especially the linear recursive structure. Moreover, they are well-s...
Robot manipulators are highly nonlinear systems and their motion control requires the computation of...
The development of an O(log2N) parallel algorithm for the manipulator inertia matrix is presented. I...
Two efficient mapping algorithms for scheduling the robot inverse dynamics computation consisting of...
The computational problem of inverse kinematics and inverse dynamics of robot manipulators by taking...
Due to continuously increasing demands in the area of advanced robot control, it became necess...
Due to continuously increasing demands in the area of advanced robot control, it became necessary to...
Computing the robot forward dynamics is important for real-time computer simulation of robot arm mot...
A parallel processing scheme for a single chain robot arm is presented for high speed computation on...
Computing the robot forward dynamics is important for real-time computer simulation of robot arm mot...
In this paper we address the problem of designing a high performance robot controller with multiple ...
This paper addresses the problem of efficiently computing the motor torques required to drive a lo...
In this paper an approach for the application of parallel processing to the dynamic analysis of robo...
This paper addresses the problem of efficiently computing the motor torques required to drive a mani...
IEEE Computer Society Technical Committee on Real-Time Systems1993 IEEE Workshop on Real-Time Applic...
This paper presents the different possibilities for parallel processing in robot control architectur...
Robot manipulators are highly nonlinear systems and their motion control requires the computation of...
The development of an O(log2N) parallel algorithm for the manipulator inertia matrix is presented. I...
Two efficient mapping algorithms for scheduling the robot inverse dynamics computation consisting of...
The computational problem of inverse kinematics and inverse dynamics of robot manipulators by taking...
Due to continuously increasing demands in the area of advanced robot control, it became necess...
Due to continuously increasing demands in the area of advanced robot control, it became necessary to...
Computing the robot forward dynamics is important for real-time computer simulation of robot arm mot...
A parallel processing scheme for a single chain robot arm is presented for high speed computation on...
Computing the robot forward dynamics is important for real-time computer simulation of robot arm mot...
In this paper we address the problem of designing a high performance robot controller with multiple ...
This paper addresses the problem of efficiently computing the motor torques required to drive a lo...
In this paper an approach for the application of parallel processing to the dynamic analysis of robo...
This paper addresses the problem of efficiently computing the motor torques required to drive a mani...
IEEE Computer Society Technical Committee on Real-Time Systems1993 IEEE Workshop on Real-Time Applic...
This paper presents the different possibilities for parallel processing in robot control architectur...
Robot manipulators are highly nonlinear systems and their motion control requires the computation of...
The development of an O(log2N) parallel algorithm for the manipulator inertia matrix is presented. I...
Two efficient mapping algorithms for scheduling the robot inverse dynamics computation consisting of...