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PD CONTROL OF ROBOT WITH VELOCITY ESTIMATION AND UNCERTAINTIES COMPENSATION

Wen Yu, Xinyu Li

Year
2006
Citations
34

Abstract

Normal industrial PD control of Robot has two drawbacks: it needs joint velocity sensors, and it cannot guarantee zero steady-state error. In this paper we make two modifications to overcome these problems. High-gain observer is applied to estimate the joint velocities, and an RBF neural network is used to compensate gravity and friction. We give a new proof for high-gain observer, which explains a direct relation between observer gain and observer error. Based on Lyapunov-like analysis, we also prove the stability of the closed-loop system if the weights of RBF neural networks have certain learning rules and the observer is fast enough.

Keywords

Control theory (sociology)Observer (physics)Compensation (psychology)Lyapunov functionComputer scienceArtificial neural networkState observerRobotStability (learning theory)Control (management)

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