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A redesigned DCAL controller without velocitymeasurements: theory and demonstration

Timothy C. Burg, D. Dawson, P. Vedagarbha

Year
1997
Citations
52

Abstract

A link position tracking controller is formulated for an n-link, rigid, revolute, serially-connected robot. The controller generates torque commands to the individual robot links based on adaptive estimates of the system parameters and measurements of only link positions. A filtering technique, based on the link position signal, is used to alleviate the need for velocity measurements. A complete development of the controller is presented along with a proof of semiglobal asymptotic link position-velocity tracking performance. Experimental validation of the proposed controller on the Integrated Motion Inc. (IMI) two-link direct drive robot is also presented. Several extensions to the basic controller are described that consider the use of fixed parameter estimates.

Keywords

Control theory (sociology)Revolute jointController (irrigation)Link (geometry)Position (finance)Tracking (education)RobotTorqueComputer scienceSIGNAL (programming language)

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