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Decentralized Fault Diagnosis and Prognosis Scheme for Interconnected Nonlinear Discrete-Time Systems
2017
International Journal of Prognostics and Health Management
This paper deals with the design of a decentralized fault diagnosis and prognosis scheme for interconnected nonlinear discrete-time systems which are modelled as the interconnection of several subsystems. For each subsystem, a local fault detector (LFD) is designed based on the dynamic model of the local subsystem and the local states. Each LFD consists of an observer with an online neural network (NN)-based approximator. The online NN approximators only use local measurements as their inputs,
doi:10.36001/ijphm.2017.v8i1.2589
doaj:6ef87b7a3cf741be85b9007c40d4f438
fatcat:enrd77mwlfdvfeu4ysqiqknviu