Closed-loop fault detection for networked flight vehicle with asynchronous switching

This paper investigates the closed-loop fault detection problem for networked flight control system with asynchronous switching. Firstly, the original flight dynamics is modelled as a linear switched system including multiple operating points. Secondly, observer-based fault detection filters and robust tracking controllers are designed synergistically to detect faults and make the system track a given command signal. Then, an asynchronous H∞ analytical method was proposed to overcome the asynchronous phenomenon between the filters/controllers and flight dynamics which is caused by the updating intervals of the system states. Moreover, the globally uniformly asymptotically stability in the mean (GUAS-M) are guaranteed by combing the Lyapunov function method with average dwell time (ADT) method.

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