Article: PSO-based robust PID control for flexible manipulator systems Journal: International Journal of Modelling, Identification and Control (IJMIC) 2011 Vol.14 No.1/2 pp.1 - 12 Abstract: In this paper, a new control law is designed for flexible manipulator systems. Kharitonov theorem is used as a design tool to derive the robust control in robotic systems. Stability is guaranteed not only at one operating condition but also for a wide range of system uncertainty. Both the non-linear behaviour of the gearbox stiffness and the end load variations are tackled as interval uncertainties in the model. Particle swarm optimisation (PSO) is used to tune controller parameters, such that, the greatest real parts of closed loop eigenvalues among Kharitonov-extreme polynomials is minimised to assure the highest possible relative stability. The flexible manipulator is a realistic industrial benchmark robot manipulator. The proposed controller is tested as well for rejecting disturbances injected at the motor and the tool. The robustness performance of the controller is evaluated in terms of reference tool position tracking in the presence of the mentioned disturbances and uncertainties. The results of the simulation are presented and compared to the results of traditional controllers and very promising outcomes are obtained. Inderscience Publishers - linking academia, business and industry through research

Title: PSO-based robust PID control for flexible manipulator systems

Authors: H.A. Elkaranshway, E.H.E. Bayoumi, H.M. Soliman

Addresses: Department of Engineering Mathematics, Faculty of Engineering, Alexandria University, P.O. Box 21544, Alexandria, Egypt. ' Power Electronics and Energy Conversion Department, Electronics Research Institute (ERI), Cairo 12622, Egypt. ' Electrical Engineering Department, Faculty of Engineering, Cairo University, Giza 12613, Egypt

Abstract: In this paper, a new control law is designed for flexible manipulator systems. Kharitonov theorem is used as a design tool to derive the robust control in robotic systems. Stability is guaranteed not only at one operating condition but also for a wide range of system uncertainty. Both the non-linear behaviour of the gearbox stiffness and the end load variations are tackled as interval uncertainties in the model. Particle swarm optimisation (PSO) is used to tune controller parameters, such that, the greatest real parts of closed loop eigenvalues among Kharitonov-extreme polynomials is minimised to assure the highest possible relative stability. The flexible manipulator is a realistic industrial benchmark robot manipulator. The proposed controller is tested as well for rejecting disturbances injected at the motor and the tool. The robustness performance of the controller is evaluated in terms of reference tool position tracking in the presence of the mentioned disturbances and uncertainties. The results of the simulation are presented and compared to the results of traditional controllers and very promising outcomes are obtained.

Keywords: robust control; PID controllers; flexible robots; flexible manipulators; Kharitonov theorem; particle swarm optimisation; PSO; manipulator control; robot control; gearbox stiffness; end load variations; uncertainties; simulation.

DOI: 10.1504/IJMIC.2011.042335

International Journal of Modelling, Identification and Control, 2011 Vol.14 No.1/2, pp.1 - 12

Published online: 21 Mar 2015 *

Full-text access for editors Full-text access for subscribers Purchase this article Comment on this article

Title: PSO-based robust PID control for flexible manipulator systems

Keep up-to-date