Title :
Optimum robust control of nonlinear hydraulic servo system
Author :
Nazir, Muhammad Babar ; Wang, Shaoping
Author_Institution :
Mechatron. Dept., Beihang Univ., Beijing
Abstract :
This paper concerns the design of robust and high precision performance controller. Optimum fuzzy PID controller is developed with the aim to achieve high performance and to reduce tracking errors. Mathematical model is developed that includes a dynamic friction model to accounts for main nonlinearities. To acquire the global optimal state proposed controller is optimized by using genetic algorithm. Effectiveness and robustness of the proposed controller are compared with PID and fuzzy control. Extensive simulation results verify optimum fuzzy PID method is fabulous with high effectiveness, robustness and good performance under parametric uncertainties, unknown modeling error and external disturbances.
Keywords :
control nonlinearities; friction; fuzzy control; genetic algorithms; hydraulic systems; nonlinear control systems; optimal control; robust control; servomechanisms; three-term control; uncertain systems; control nonlinearities; dynamic friction model; external disturbances; fuzzy PID controller; genetic algorithm; high precision performance controller; mathematical model; modeling error; nonlinear hydraulic servo system; optimum robust control; parametric uncertainties; tracking error; Error correction; Friction; Fuzzy control; Genetic algorithms; Mathematical model; Nonlinear dynamical systems; Optimal control; Robust control; Servomechanisms; Three-term control; Nonlinear hydraulic servo system; friction; genetic algorithm; optimum fuzzy PID control;
Conference_Titel :
Industrial Electronics, 2008. IECON 2008. 34th Annual Conference of IEEE
Conference_Location :
Orlando, FL
Print_ISBN :
978-1-4244-1767-4
Electronic_ISBN :
1553-572X
DOI :
10.1109/IECON.2008.4757971
