Title :
UIO based robust fault diagnosis approach for aero-engine fiber-optic sensor
Author :
Chen He ; Xiaodong Zhang ; Binghui Jia
Author_Institution :
Northwestern Polytech. Univ., Xi´an, China
Abstract :
The purpose of this study is to develop a model-based method for detecting optical fiber sensor fault in aero-engine linear discrete time invariant (LDTI) system considering both disturbances and uncertainties. Firstly, the fiber-optic sensors are analyzed and utilized to measure the aero-engine compressor output and aero-engine compressor is reduced to a 4-input 3-output single-spool state space linear model. Secondly, the discrete robust unknown input observer (DRUIO) is designed for the fault detection based on a linear matrix inequality (LMI) approach. The performance of the observer is demonstrated by applying the design procedure to a nonlinear gas turbine model. And the result shows that less than 2% sensor fault can be detected with disturbance.
Keywords :
aerospace engines; compressors; fault diagnosis; fibre optic sensors; gas turbines; linear matrix inequalities; observers; 4-input 3-output single-spool state space linear model; DRUIO design; LDTI system; LMI approach; aeroengine compressor output measurement; aeroengine fiber-optic sensor; aeroengine linear discrete time invariant system; discrete robust unknown input observer design; linear matrix inequality approach; nonlinear gas turbine model; optical fiber sensor fault detection; robust fault diagnosis approach; Fault diagnosis; Mathematical model; Observers; Optical fiber sensors; Optical fibers; Robustness; Temperature measurement; aero-engine compressor model; aero-engine fiber-optic sensor; fault detection; linear matrix inequality (LMI); unknown input observer (UIO);
Conference_Titel :
Automation Science and Engineering (CASE), 2013 IEEE International Conference on
Conference_Location :
Madison, WI
DOI :
10.1109/CoASE.2013.6653947
