Robust finite–time stochastic stabilization and fault–tolerant control for uncertain networked control systems considering random delays and probabilistic actuator faults-Reference-Cited by-同舟云学术

Robust finite–time stochastic stabilization and fault–tolerant control for uncertain networked control systems considering random delays and probabilistic actuator faults

Published:2019-03-19 Issue:12 Volume:41 Page:3550-3561
ISSN:0142-3312
Container-title:Transactions of the Institute of Measurement and Control
language:en
Short-container-title:Transactions of the Institute of Measurement and Control

Author:

Bahreini Mohsen¹,Zarei Jafar¹^ORCID,Razavi–Far Roozbeh²,Saif Mehrdad²

Affiliation:

1. School of Electrical and Electronics Engineering, Shiraz University of Technology, Iran

2. School of Electrical and Computer Engineering, University of Windsor, Canada

Abstract

This paper focuses on the problem of reliable finite–time stochastic stability (FTSS) for uncertain networked control systems (NCSs). A Markovian jump system (MJS) model with partly unknown transition probabilities (TPs) for the NCSs with random delays, data packet dropouts (disorders as well) and stochastic actuator faults is established to describe the closed–loop system. A mode-dependent static output feedback controller is designed taking only the measured outputs into account. A new criterion is also derived in terms of linear matrix inequalities (LMIs) to ensure reliable FTSS of the closed–loop system, based on the stochastic stability theory. Simulation studies on a benchmark numerical example, as well as an unstable numerical example can verify the effectiveness of the proposed method.

Publisher

SAGE Publications

Subject

Instrumentation

Link

http://journals.sagepub.com/doi/pdf/10.1177/0142331219832945

Reference41 articles.

1. Robust Finite-Time Stabilization for Networked Control Systems via Static Output-Feedback Control: Markovian Jump Systems Approach

2. Robust fault-tolerant control of uncertain networked control systems subject to random delays and data packet dropouts

3. Robust stability and stabilization of discrete-time Markov jump linear systems with partly unknown transition probability matrix

4. Robust reliable feedback controller design against actuator faults for linear parameter‐varying systems in finite‐frequency domain

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