Title :
T-S fuzzy robust fault-tolerant control strategy for wind energy conversion system
Author :
Shen Yan-xia ; He Qing-nan ; Pan Ting-long ; Wu Ding-hui
Author_Institution :
Minist. of Educ. Sch. of IoT Eng., Jiangnan Univ., Wuxi, China
Abstract :
In this paper, a new fault tolerant control scheme for wind energy conversion system (WECS) is proposed considering the partial failure of actuators. By building and analyzing the state equation of WECS, actuator continual gain faults of WECS is converted into system parameter uncertainties. The T-S fuzzy theory is employed for the modeling of WECS with this parameter uncertainties. Using parallel distributed compensation state feedback structure, a robust fault-tolerant controller is designed as WECS suffers from actuator fault. Simulation results indicate that system with the proposed controller can still achieve maximum wind energy capture below the rated wind speed under actuator fault.
Keywords :
actuators; compensation; control system synthesis; distributed control; failure analysis; fault diagnosis; fault tolerance; fuzzy control; fuzzy systems; power generation control; robust control; state feedback; uncertain systems; wind power plants; T-S fuzzy robust fault-tolerant control strategy design; WECS state equation; actuator continual gain faults; actuator fault; maximum wind energy capture; parallel distributed compensation state feedback structure; partial-actuator failure; system parameter uncertainties; wind energy conversion system; wind speed; Actuators; Equations; Fault tolerance; Fault tolerant systems; Mathematical model; Torque; Wind energy; Actuator Fault; Fault-tolerant Control; T-S Fuzzy; Wind Energy Conversion System;
Conference_Titel :
Industrial Electronics and Applications (ICIEA), 2013 8th IEEE Conference on
Conference_Location :
Melbourne, VIC
Print_ISBN :
978-1-4673-6320-4
DOI :
10.1109/ICIEA.2013.6566359
