Robust fault-tolerant control for networked control systems subject to random delays via static-output feedback

This paper focuses on the problem of fault-tolerant controller (FTC) design for uncertain networked control systems (NCSs) with random delays and actuator faults. A new fault model is proposed to represent more class of actuator faults. More precisely, the NCSs with random delays and the possible ac...

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Published inISA transactions Vol. 86; pp. 153 - 162
Main Authors Bahreini, Mohsen, Zarei, Jafar
Format Journal Article
LanguageEnglish
Published United States Elsevier Ltd 01.03.2019
Subjects
Fault-tolerant control
Linear matrix inequalities (LMIs)
Markovian jump systems (MJSs)
Network-induced random delays
Networked control systems (NCSs)
Output feedback
Networked control systems (NCSs)
Linear matrix inequalities (LMIs)
Fault-tolerant control
Markovian jump systems (MJSs)
Output feedback
Network-induced random delays
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Abstract This paper focuses on the problem of fault-tolerant controller (FTC) design for uncertain networked control systems (NCSs) with random delays and actuator faults. A new fault model is proposed to represent more class of actuator faults. More precisely, the NCSs with random delays and the possible actuator faults are modeled as a Markovian jump system (MJS) with incomplete transition probabilities (TPs) and then LMI-based sufficient conditions are derived to ensure the stochastic stability of the closed-loop system. The sufficient conditions are constructed to synthesize the mode-dependent static-output feedback (SOF) control laws. Feasibility and reliability of the proposed FTC against actuator faults are indicated through simulation results. •Network-induced random delays are modeled as a Markov chain with partly unknown TPs.•A more general model for actuator faults representation is proposed.•A robust FTC based on output feedback is designed for the uncertain faulty NCSs.•Improved control performance is achieved under actuator faults.•LMI-based sufficient conditions are developed to compute the controller parameters.
AbstractList This paper focuses on the problem of fault-tolerant controller (FTC) design for uncertain networked control systems (NCSs) with random delays and actuator faults. A new fault model is proposed to represent more class of actuator faults. More precisely, the NCSs with random delays and the possible actuator faults are modeled as a Markovian jump system (MJS) with incomplete transition probabilities (TPs) and then LMI-based sufficient conditions are derived to ensure the stochastic stability of the closed-loop system. The sufficient conditions are constructed to synthesize the mode-dependent static-output feedback (SOF) control laws. Feasibility and reliability of the proposed FTC against actuator faults are indicated through simulation results.This paper focuses on the problem of fault-tolerant controller (FTC) design for uncertain networked control systems (NCSs) with random delays and actuator faults. A new fault model is proposed to represent more class of actuator faults. More precisely, the NCSs with random delays and the possible actuator faults are modeled as a Markovian jump system (MJS) with incomplete transition probabilities (TPs) and then LMI-based sufficient conditions are derived to ensure the stochastic stability of the closed-loop system. The sufficient conditions are constructed to synthesize the mode-dependent static-output feedback (SOF) control laws. Feasibility and reliability of the proposed FTC against actuator faults are indicated through simulation results.
This paper focuses on the problem of fault-tolerant controller (FTC) design for uncertain networked control systems (NCSs) with random delays and actuator faults. A new fault model is proposed to represent more class of actuator faults. More precisely, the NCSs with random delays and the possible actuator faults are modeled as a Markovian jump system (MJS) with incomplete transition probabilities (TPs) and then LMI-based sufficient conditions are derived to ensure the stochastic stability of the closed-loop system. The sufficient conditions are constructed to synthesize the mode-dependent static-output feedback (SOF) control laws. Feasibility and reliability of the proposed FTC against actuator faults are indicated through simulation results. •Network-induced random delays are modeled as a Markov chain with partly unknown TPs.•A more general model for actuator faults representation is proposed.•A robust FTC based on output feedback is designed for the uncertain faulty NCSs.•Improved control performance is achieved under actuator faults.•LMI-based sufficient conditions are developed to compute the controller parameters.
This paper focuses on the problem of fault-tolerant controller (FTC) design for uncertain networked control systems (NCSs) with random delays and actuator faults. A new fault model is proposed to represent more class of actuator faults. More precisely, the NCSs with random delays and the possible actuator faults are modeled as a Markovian jump system (MJS) with incomplete transition probabilities (TPs) and then LMI-based sufficient conditions are derived to ensure the stochastic stability of the closed-loop system. The sufficient conditions are constructed to synthesize the mode-dependent static-output feedback (SOF) control laws. Feasibility and reliability of the proposed FTC against actuator faults are indicated through simulation results.
Author Bahreini, Mohsen
Zarei, Jafar
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Keywords Networked control systems (NCSs)
Linear matrix inequalities (LMIs)
Fault-tolerant control
Markovian jump systems (MJSs)
Output feedback
Network-induced random delays
Language English
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Snippet This paper focuses on the problem of fault-tolerant controller (FTC) design for uncertain networked control systems (NCSs) with random delays and actuator...
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SubjectTerms Fault-tolerant control
Linear matrix inequalities (LMIs)
Markovian jump systems (MJSs)
Network-induced random delays
Networked control systems (NCSs)
Output feedback
Title Robust fault-tolerant control for networked control systems subject to random delays via static-output feedback
URI https://dx.doi.org/10.1016/j.isatra.2018.10.034
https://www.ncbi.nlm.nih.gov/pubmed/30420139
https://www.proquest.com/docview/2132735873
Volume 86
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