Journal Article10.1109/TCSI.2011.2157734
Fault-Tolerant Control for Nonlinear Markovian Jump Systems via Proportional and Derivative Sliding Mode Observer Technique
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TL;DR: Based on the estimation, an observer-based fault-tolerant control scheme is developed to stabilize the resulting closed-loop system and a numerical example is presented to illustrate the effectiveness and applicability of the proposed technique.
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Abstract: This paper investigates the problem of sensor fault estimation and fault-tolerant control for Markovian jump systems with time delay and Lipschitz nonlinearities. The issues involved here are: i) sensor faults; ii) model Lipchitz nonlinearities; iii) system structure changes governed by Markovian jumping parameters; and iv) time delay in system states. Such type of mathematical models can represent a large number of practical systems in the actual engineering. A new estimation technique (named proportional and derivative sliding mode observer) is developed to deal with this design problem. The proposed observer is mode-dependent type in which a derivative gain and a proportional gain are introduced to provide more design freedom, and a discontinuous input term is introduced to eliminate the effects of sensor faults. By employing the developed estimation technique, the asymptotic estimations of system states and sensor faults can be obtained simultaneously. Based on the estimation, an observer-based fault-tolerant control scheme is developed to stabilize the resulting closed-loop system. Finally, a numerical example is presented to illustrate the effectiveness and applicability of the proposed technique.
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Citations
Finite-Time Stability Analysis for Markovian Jump Memristive Neural Networks With Partly Unknown Transition Probabilities
Ruoxia Li,Jinde Cao +1 more
TL;DR: By introducing a Markov switching Lyapunov functional and stochastic analysis theory, an FTSS test procedure is proposed, from which it can be concluded that the settling time function is a Stochastic variable and its expectation is finite.
104
Observer-based Fault Tolerant Control Design for a Class of LPV Descriptor Systems
TL;DR: A new Fault Tolerant Control methodology for a class of LPV descriptor systems that are represented under a polytopic LPV form to compensate the effects of time-varying or constant actuator faults by designing an Adaptive Polytopic Observer (APO) which is able to estimate both the states of the system and the magnitude of the actuators faults.
Descriptor Observers Design for Markov Jump Systems With Simultaneous Sensor and Actuator Faults
Hongyan Yang,Shen Yin +1 more
TL;DR: In this study, based upon designing a novel observer for Markovian jump systems (MJS), the state and fault estimation problem in the presence of simultaneous sensor and actuator faults in MJS is investigated.
94
Robust fault estimation and fault-tolerant control for Markovian jump systems with general uncertain transition rates
TL;DR: A fault-tolerant control strategy is proposed to stabilize the closed-loop system against actuator faults, sensor faults and disturbances and some practical examples are delivered to illustrate the validation and effectiveness of the proposed method.
93
Reduced-Order Sliding-Mode-Observer-Based Fault Estimation for Markov Jump Systems
Hongyan Yang,Shen Yin +1 more
TL;DR: A novel descriptor reduced-order sliding mode observer (SMO) is proposed, based on which the estimation of the actuator faults, sensor faults, and the states can be obtained simultaneously.
92
References
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Lixian Zhang,El-Kébir Boukas +1 more
TL;DR: The sufficient conditions for stochastic stability and stabilization of the underlying systems are derived via LMIs formulation, and the relation between the stability criteria currently obtained for the usual MJLS and switched linear systems under arbitrary switching, are exposed by the proposed class of hybrid systems.
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Design of reliable control systems
TL;DR: In this article, a methodology for the design of reliable centralized and decentralized control systems is developed, and the resulting control systems are reliable in that they provide guaranteed stability and H/sub infinity / performance not only when all control components are operational, but also for sensor or actuator outages in the centralized case, or for control-channel outages for the decentralized case.
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State Estimation and Sliding-Mode Control of Markovian Jump Singular Systems
Ligang Wu,Peng Shi,Huijun Gao +2 more
TL;DR: A new necessary and sufficient condition is proposed in terms of strict linear matrix inequality (LMI), which guarantees the stochastic admissibility of the unforced Markovian jump singular system.
627
Output Feedback Stabilization of Networked Control Systems With Random Delays Modeled by Markov Chains
TL;DR: This note investigates the output feedback stabilization of networked control systems (NCSs) through the design of a two-mode-dependent controller that depends on not only the current S-C delay but also the most recent available C-A delay at the controller node.