A distributed system for robot manipulator control

R. Paul, P. Corke, J. Funda, G. Holder, H. Kobayashi, and Yangsheng Xu

Tech. Report, MS-CIS-90-07, Department of Computer and Information Science, University of Pennsylvania, 1990

Abstract

This is the fourth annual report representing our last year's work under the current grant. This work was directed to the development of a distributed computer architecture to function as a force and motion server to a robot system. In the course of this work we developed a compliant contact sensor to provide for transitions between position and force control; developed an end-effector capable of securing a stable grasp on an object and a theory of grasping; developed and built a controller which minimizes control delays; explored a parallel kinematics algorithms for the controller; developed a consistent approach to the definition of motion both in joint coordinates and in Cartesian coordinates; developed a symbolic simplification software package to generate the dynamics equations of a manipulator such that the calculations may be split between background and foreground.

BibTeX

@techreport{Paul-1990-15784,
author = {R. Paul and P. Corke and J. Funda and G. Holder and H. Kobayashi and Yangsheng Xu},
title = {A distributed system for robot manipulator control},
year = {1990},
month = {January},
institute = {University of Pennsylvania},
address = {Pittsburgh, PA},
number = {MS-CIS-90-07},
}

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