Detection and accommodation of second order distributed parameter systems with abrupt changes in input term: stability and adaptation

Demetriou, Michael A.; Polycarpou, Marios M.

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Demetriou, Michael A. ; Polycarpou, Marios M.

Detection and accommodation of second order distributed parameter systems with abrupt changes in input term: stability and adaptation. (English). Kybernetika, vol. 34 (1998), issue 6, pp. [667]-679

MSC: 65K10, 93C10, 93C40, 93E10, 93E12 | MR 1695370 | Zbl 1274.93145

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Keywords:
nonlinear estimator; fault detection; Lyapunov redesign methods

Summary:
In this note, we employ nonlinear on-line parameter estimation methods based on adaptive neural network approximators for detecting changes due to actuator faults in a class of second order distributed parameter systems. The motivating example is a cantilevered beam actuated via a pair of piezoceramic patches. We examine changes in the control input term, which provide a simple and practical model of actuator failures. Using Lyapunov redesign methods, a stable learning scheme for fault diagnosis is proposed. The resulting fault diagnosis scheme is utilized for control reconfiguration in order to accommodate the system’s actuator failure. A numerical algorithm is provided for the implementation of the detection and accommodation scheme and simulation studies are used to illustrate the applicability of the theoretical results.

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References:

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