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A globally stable state feedback controller for flexible joint robots

Alin Albu‐Schäffer, Gerd Hirzinger

Year
2001
Citations
96

Abstract

Abstract The paper addresses the problem of controlling the joints of a flexible joint robot with a state feedback controller and proposes a gradual way of extending such a controller towards the complete decoupling of the robot dynamics. The global asymptotic stability for the state feedback controller with gravity compensation is proven, followed by some theoretical remarks on its passivity properties. By proper parameterization, the proposed controller structure can implement a position, a stiffness or a torque controller. Experimental results on the DLR lightweight robots validate the method. Keywords: FLEXIBLE JOINT ROBOTSLIGHTWEIGHT ROBOTSGLOBALLY STABLE CONTROLLERPASSIVITYVIBRATION DAMPING

Keywords

Control theory (sociology)RobotDecoupling (probability)Controller (irrigation)PassivityControl engineeringFull state feedbackExponential stabilityComputer scienceCompensation (psychology)

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