Title :
Active fault-tolerant control system
Author :
Nabil, Essam ; Sobaih, Abdel-Azem ; Abou-Zalam, Belal
Author_Institution :
Ind. Electron. & Control Eng. Dept, Menoufia Univ., Menouf, Egypt
fDate :
Nov. 30 2010-Dec. 2 2010
Abstract :
In this paper a viable active fault-tolerant control system is provided to accommodate partial actuator and/or sensor faults with graceful degradation of the process performance, a model-based fault detection and isolation (FDI) technique developed with deeper insight into the process behavior by using a set of constrained Kaiman filters, and then estimating the effectiveness factor for the faulty actuator and/or sensor in the presence of system disturbances and random noise. Reconfigurable controller design is developed by combining both singular value decomposition (SVD) principle and eigenstructure assignment technique. The effectiveness of the proposed scheme has justified by Simulation result on the steering subsystem of the Naval Postgraduate School (NPS) UUV with simulated actuator (rudder) failures.
Keywords :
Kalman filters; actuators; control system synthesis; fault diagnosis; fault tolerance; mobile robots; remotely operated vehicles; singular value decomposition; steering systems; underwater vehicles; active fault-tolerant control system; constrained Kalman filters; eigenstructure assignment technique; isolation technique; model-based fault detection; partial actuator; reconfigurable controller design; sensor faults; singular value decomposition principle; steering subsystem; unmanned underwater vehicle; Actuators; Equations; Fault tolerance; Fault tolerant systems; Kalman filters; Mathematical model; Control reconfiguration; Fault-tolerant control system (FTCS); Model-based Fault detection and diagnosis (FDD); State estimation; parameter estimation;
Conference_Titel :
Computer Engineering and Systems (ICCES), 2010 International Conference on
Conference_Location :
Cairo
Print_ISBN :
978-1-4244-7040-2
DOI :
10.1109/ICCES.2010.5674868
