Adaptive phase control of robot with flexible joint optimized by genetic algorithm
Subject Areas : Electronics EngineeringMirsjad Mousavi 1 , Ebrahim Abbaszadeh 2
1 - Shahroud University of Technology, M.Sc. Student of Electrical Control Engineering, Shahroud,
2 - Shahroud University of Technology, M.Sc. Student of Electrical Control Engineering, Shahroud
Keywords:
Abstract :
The robot studied in this paper is a mechanical system consisting of an arm with a flexible joint with two degrees of freedom. This paper proposes an adaptive phase controller for this flexible joint. The proposed controller is evaluated for stability and perturbation removal. In order to achieve the maximum speed in following the control commands, the effective parameters in the controller are optimized by the genetic optimization algorithm
[1] a. Y. S. Passino K., Fuzzy Control: Addison-Wesley Publishing Company, 1998.
[2] E. Y. ismail H. AKYUZt, H. Metin ERTUNCt and Zafer BINGULt, "PID and State Feedback Control of a Single-Link Flexible Joint Robot Manipulator," in International Conference on Mechatronics, Istanbul, Turkey,2011.
[3] W. J. Book, "Modeling, design and control of flexible link manipulator arms: a tutorial review," in Conference on Decision and Control, 1990, p. 6.
[4] S.-J. H. Kuo-Ching Chiou, "An adaptive fuzzy controller for robot manipulators," Mechatronics, vol. 2, p. 11, 2005.
[5] K. J. A. a. B. Wittenmark, Adaptive Control: Addison-Wesley, 1998.
[6] L.-X. Wang, A Course in Fuzzy Systems and Control: Prentice-Hall International, Inc, 1962.
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