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Direct digital design of computed torque controllers

Tadashi Ishihara

Year
1994
Citations
5

Abstract

Abstract Direct digital design of computed torque controllers for a robot manipulator is discussed in this article. A simple discrete‐time model of the robot manipulator obtained by Euler's method is used for the design. Taking account of computation delay in the digital processor, we propose predictor‐based designs of the PD and PID type controllers. The PID‐type controller is designed based on a modified version of the discrete‐time integral controller proposed by Mita. For both controllers, the feedback gains can be determined easily by using simple formulas. A simulation example is presented to illustrate the relevance of the proposed designs and the robustness of PID‐type controller against physical parameter variations. © 1994 John Wiley & Sons, Inc.

Keywords

PID controllerControl theory (sociology)Robustness (evolution)Control engineeringTorqueComputationRobotSimple (philosophy)Computer scienceRobot manipulator

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