Robust Adaptive Fault Estimation for a Class of Nonlinear Systems Subject to Multiplicative Faults

• Published in: Circuits, systems, and signal processing Vol. 31; no. 6; pp. 2035 - 2046
• Main Authors: Gao, Chunyan, Duan, Guangren
• Format: Journal Article
• Language: English
• Published: Boston SP Birkhäuser Verlag Boston 01.12.2012; Springer Nature B.V
• Subjects: Adaptive systems; Circuits and Systems; Computational efficiency; Computing time; Disturbances; Dynamical systems; Electrical Engineering; Electronics and Microelectronics; Engineering; Fault diagnosis; Faults; Instrumentation; Lipschitz condition; Nonlinear dynamics; Nonlinear systems; Robust control; Signal,Image and Speech Processing; Lipschitz nonlinear systems; Multiplicative fault; Adaptive estimator; Fault estimation
• ISSN: 0278-081X; 1531-5878
• DOI: 10.1007/s00034-012-9434-x

In this paper, a fault estimation problem for a class of nonlinear systems subject to multiplicative faults and unknown disturbances is investigated. Multiplicative faults usually mixed with system states and inputs can cause additional complexity in the design of fault estimator due to parameter changes within process. Especially for the nonlinear system corrupted with unknown disturbances, it is not an easy work to distinguish the real fault factor from the mixed term. Under the nonlinear Lipschitz condition, the proposed robust adaptive fault estimation approach not only estimates the multiplicative faults and system states simultaneously, but also extracts the real effect of the faults. Meanwhile, the effect of disturbances is restricted to an L 2 gain performance criteria which can be formulated into the basic feasibility problem of a linear matrix inequality (LMI). In order to reduce the conservatism of the proposed method, a relaxing Lipschitz matrix is introduced. Finally, an illustrative example is applied to verify the efficiency of the proposed robust adaptive estimation scheme.