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MANIPULATION

Pole-Placement Position Control of a Hydraulic Robot Arm

Can Özsoy, Ayhan Kural, Ahmet Kuzucu

Year
1994
Citations
3

Abstract

This paper discusses a single-input single-output discrete-time model developed to control joint position of a manipulator design for painting purposes. The input of the discrete-time model is the voltage into the control valve, and the output is the joint displacement. The model parameters are identified by using input-output data collected from the actual system. Recursive least-squares, square root, V-D factorization and variable forgetting factor methods were used for the estimation, and a good match between the model and actual system responses was obtained. The best estimation results were found by the U-D factorization algorithm according to the sum of the squared errors. Since identification results indicate a non-minimum phase system, a pole-placement self-tuning controller is designed for the purpose of joint trajectory control. The control signal computed off-line is applied to the electrohydraulic drive system and the perfect performance of the pole-placement controller is shown by the experimental studies.

Keywords

Control theory (sociology)Controller (irrigation)System identificationPosition (finance)Robotic armComputer scienceTrajectoryControl systemEngineeringControl (management)

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