Title :
Decoupling Control Using a PSO-Based Reinforcement Learning
Author :
Xin, Wang ; Yang Chun-hua ; Bin, Qin
Author_Institution :
Sch. Of Info. Sci. &Eng, Central South Univ, Changsha, China
Abstract :
In this paper an intelligent decoupling control architecture using evolutionary reinforcement learning (IDCERL) is presented. The IDCERL utilizes an adaptive critic to estimate the decoupling performance, and a TSK fuzzy neural network (TSFN) to generate the decoupling action. By making use of the global optimization capability of particle swarm optimization (PSO), the IDCERL can solve the local minima problem in traditional actor-critic reinforcement learning. The IDCERL utilize a plant model to accelerate the convergence speed and void the possible risks of large disturbance of action generated by PSO global search. Proposed control strategy can reduce the controller developing time by incorporating prior knowledge in a fuzzy neural network form. The application for control system of collector gas pressure of coke ovens shows its validity.
Keywords :
evolutionary computation; fuzzy control; fuzzy neural nets; intelligent control; learning (artificial intelligence); particle swarm optimisation; PSO-based reinforcement learning; TSK fuzzy neural network; actor-critic reinforcement learning; collector gas pressure; decoupling control; evolutionary reinforcement learning; intelligent decoupling control architecture; local minima problem; particle swarm optimization; Acceleration; Control systems; Convergence; Fuzzy control; Fuzzy neural networks; Intelligent control; Learning; Ovens; Particle swarm optimization; Pressure control; PSO; decoupling control; recurrent fuzzy neural network; reinforcement learning;
Conference_Titel :
Computational Intelligence and Natural Computing, 2009. CINC '09. International Conference on
Conference_Location :
Wuhan
Print_ISBN :
978-0-7695-3645-3
DOI :
10.1109/CINC.2009.261
