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Simultaneous robust actuator and sensor fault estimation for uncertain non-linear Lipschitz systems

by Swain, Akshya Kumar , Zhang, Jian , Nguang, Sing Kiong

in Actuators / adaptive observer / Errors / Estimates / fault diagnosis / Faults / Hâˆž control / linear matrix inequalities / linear matrix inequality optimisation problem / Matching / matching condition / nonlinear control systems / Observers / optimisation / robust control / sensor fault estimation / Sensors / simultaneous robust actuator / sliding mode observers / SMO / uncertain nonlinear Lipschitz systems / uncertain systems / Uncertainty / variable structure systems / â„‹âˆž disturbance attenuation level / â„‹âˆž tracking performance

2014

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Simultaneous robust actuator and sensor fault estimation for uncertain non-linear Lipschitz systems

by Swain, Akshya Kumar , Zhang, Jian , Nguang, Sing Kiong

2014

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Simultaneous robust actuator and sensor fault estimation for uncertain non-linear Lipschitz systems

by Swain, Akshya Kumar , Zhang, Jian , Nguang, Sing Kiong

2014

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Journal Article

Simultaneous robust actuator and sensor fault estimation for uncertain non-linear Lipschitz systems

Swain, Akshya Kumar,

Zhang, Jian,

Nguang, Sing Kiong

2014

Overview

The present study proposes two schemes for simultaneously estimating actuator and sensor faults for a class of uncertain non-linear systems. In the first scheme, two sliding mode observers (SMOs) are designed to estimate actuator and sensor faults, respectively, under the assumption that the matching condition holds. In the second scheme, the assumption of matching condition is relaxed and an adaptive observer has been designed to estimate the sensor fault instead of using an SMO. The effects of the system uncertainties on the estimation errors of states and faults are reduced by integrating a prescribed ℋ∞ disturbance attenuation level into the proposed schemes. The sufficient condition for the existence of the proposed observers with ℋ∞ tracking performance is derived and expressed as a linear matrix inequality optimisation problem such that the ℒ2 gain between the estimation errors and system uncertainties is minimised. Finally, a simulation study is presented to illustrate the effectiveness of the proposed schemes.

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Publisher

The Institution of Engineering and Technology,John Wiley & Sons, Inc

Subject

/ Errors

/ Faults