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Fault and disturbance reconstruction in non-linear systems using a network of interconnected sliding mode observers

Fault and disturbance reconstruction in non-linear systems using a network of interconnected sliding mode observers

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  • Author(s): R. Sharma 1  and  M. Aldeen 2
    • View affiliations
    • Affiliations: 1: Department of Mechanical Engineering, University of Melbourne, Parkville, Australia
      2: Department of Electrical and Electronic Engineering, University of Melbourne, Parkville, Australia
  • Source: Volume 5, Issue 6, 14 April 2011, p. 751 – 763
    DOI:  10.1049/iet-cta.2009.0592 , Print ISSN 1751-8644, Online ISSN 1751-8652
© The Institution of Engineering and Technology
Published

A new technique for fault diagnosis and estimation of unknown inputs in a class of non-linear systems is presented in this study. The novelty of the approach is based on utilisation of a network of two interconnected sliding mode observers, the first is used for fault diagnosis and the second is used for estimation of unknown inputs. The two observers exchange information about their respective reconstructed signals online and in real time. Conditions and proofs of conversion are presented. A salient feature of the proposed approach is that the state trajectories do not leave the sliding manifold even in presence of unknown disturbances and faults. This allows for faults and unknown inputs to be reconstructed based on information retrieved from the equivalent output error injection signal.

Inspec keywords: signal reconstruction; fault diagnosis; nonlinear control systems; observers; interconnected systems; variable structure systems

Other keywords: unknown faults; unknown disturbances; state trajectory; nonlinear systems; fault diagnosis; reconstructed signals online; salient feature; sliding manifold; fault reconstruction; interconnected sliding mode observers; disturbance reconstruction; output error injection signal

Subjects: Signal processing and detection; Simulation, modelling and identification; Signal processing theory; Nonlinear control systems; Multivariable control systems

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