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Journal Articles IEEE Transactions on Signal Processing Year : 2021

Dynamic System Fault Diagnosis under Sparseness Assumption

Abstract

Dynamic system fault diagnosis is often faced with a large number of possible faults. The purpose of this paper is to propose an efficient method for such situations. To avoid intractable combinatorial problems, sparse estimation techniques appear to be a powerful tool for isolating faults, under the assumption that only a small number of possible faults can be simultaneously active. However, sparse estimation is often studied in the framework of linear algebraic equations, whereas model-based fault diagnosis is usually investigated for dynamic systems modeled with state equations involving internal states. The main contribution of this paper is a link between these two formalisms through efficient and reliable algorithms, mainly relying on advanced analyses of residuals generated with the Kalman and Kitanidis filters. Based on these results, it becomes straightforward to solve fault diagnosis problems by applying well known sparse estimation techniques, in the framework of general time varying state-space systems involving unknown inputs.
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Dates and versions

hal-03195954 , version 1 (12-04-2021)

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Cite

Qinghua Zhang. Dynamic System Fault Diagnosis under Sparseness Assumption. IEEE Transactions on Signal Processing, 2021, pp.10. ⟨10.1109/TSP.2021.3072004⟩. ⟨hal-03195954⟩
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