DocumentCode
1112973
Title
Variable-Structure Multiple-Model Approach to Fault Detection, Identification, and Estimation
Author
Ru, Jifeng ; Li, X. Rong
Author_Institution
Arcon Corp., Waltham, MA
Volume
16
Issue
5
fYear
2008
Firstpage
1029
Lastpage
1038
Abstract
A scheme is proposed to detect, identify, and estimate failures, including abrupt total, partial, and multiple failures, in a dynamic system. The new approach, named IM3L, is developed based on variable-structure multiple-model estimation, which allows to improve performance by online adaptation. It uses an interacting multiple model estimator for fault detection and identification but the maximum likelihood estimator for estimating the extent of failure. It provides an effective and integrated framework for fault detection, identification, and state estimation. For two aircraft examples, the proposed approach is evaluated and compared with hierarchical multiple-model approaches and a widely used single-model residual-based generalized likelihood ratio approach in terms of detection and estimation performance. The results show that the IM3L provides not only fast detection and proper identification, but also good estimation of the failure extent as well as robust state estimation.
Keywords
fault diagnosis; maximum likelihood estimation; state estimation; variable structure systems; IM3L; dynamic system; fault detection; fault estimation; fault identification; maximum likelihood estimator; robust state estimation; single-model residual-based generalized likelihood ratio; variable-structure multiple-model estimation; Adaptive estimation; fault detection and identification; hybrid estimation; multiple-model; variable structure;
fLanguage
English
Journal_Title
Control Systems Technology, IEEE Transactions on
Publisher
ieee
ISSN
1063-6536
Type
jour
DOI
10.1109/TCST.2007.916318
Filename
4476350
Link To Document