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Stability analysis of a robust PD control law for robot manipulators

T.C. Hsia, Zikun Mao

Year
1996
Citations
2

Abstract

The purpose of this article is to examine the stability of a robust and decentralized PD control law for robot manipulator control. The control law, which was developed by the authors, has been shown experimentally to be extremely simple to implement and highly accurate for position and force tracking in the presence of robot model uncertainty and payload variation. However, stability analysis has been difficult due to the nonlinearity of robot dynamics and the use of time-delayed measurements of joint torques and joint accelerations in the control law. A rigorous stability analysis is presented in this article using Popov's hyperstability theory. A sufficient condition for global stability is obtained that supports previous theoretical and experimental results. © 1996 John Wiley & Sons, Inc.

Keywords

Payload (computing)Control theory (sociology)RobotStability (learning theory)Robot manipulatorLawNonlinear systemRobust controlRoboticsControl engineering

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