Observer design for simultaneous robust actuator and sensor faults reconstruction

This paper describes a robust fault reconstruction and estimation design for a class of nonlinear system described by Takagi-Sugeno structure subject to faults affecting actuators, sensor faults and disturbances. The premise variables are assumed to be unmeasurable. The main innovation is focused pr...

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Bibliographic Details
Published in2015 16th International Conference on Sciences and Techniques of Automatic Control and Computer Engineering (STA) pp. 768 - 772
Main Authors Ben Brahim, Ali, Dhahri, Slim, Ben Hmida, Faycal, Sellami, Anis
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.12.2015
Subjects
Actuators
Disturbances
fault reconstruction
Nonlinear systems
Observers
Robustness
Sliding mode observer
Takagi-Sugeno model
Takagi-Sugeno systems
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DOI10.1109/STA.2015.7505218

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Summary:This paper describes a robust fault reconstruction and estimation design for a class of nonlinear system described by Takagi-Sugeno structure subject to faults affecting actuators, sensor faults and disturbances. The premise variables are assumed to be unmeasurable. The main innovation is focused primarily to conceive Sliding Mode Observer (SMO) designed to compensate faults behaviors from the system states estimation. In formalism of multi-objective optimisation, we derive sufficient conditions to guarantee the states estimation error stability and to obtain the observer gains. Simulation result is given to evaluate the proposed approach performances.
DOI:10.1109/STA.2015.7505218