Simultaneous fault detection and control for switched systems with actuator faults |
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Authors: | Jian Li |
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Affiliation: | 1. College of Information Science and Engineering, Northeastern University, Shenyang, China;2. School of Automation Engineering, Northeast Dianli University, Jilin, China |
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Abstract: | This paper is concerned with the fault detection and control problem for discrete-time switched systems. The actuator faults, especially ‘outage cases’, are considered. The detector/controller is designed simultaneously such that the closed-loop system switches under an average dwell time, and when a fault is detected, an alarm is generated and then the controller is switched to allow the norm of the states of the subsystem to increase within the acceptable limits. Thus, a switching strategy which combines average dwell time switching with event-driven switching is proposed. Under this switching strategy, the attention is focused on designing the detector/controller such that estimation errors between residual signals and faults are minimised for the fulfillment of fault detection objectives; simultaneously, the closed-loop system becomes asymptotically stable for the fulfillment of control objectives. A two-step procedure is adopted to obtain the solutions through satisfying a set of linear matrix inequalities. An example comprising of three cases is considered. Through these cases, it is demonstrated that the fault detection and control for switched systems using a two-stage switching strategy and asynchronous switching are feasible. |
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Keywords: | simultaneous fault detection and control switched systems destabilising failure average dwell time linear matrix inequality |
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