ROBUST FAULT DETECTION FOR NETWORKED CONTROL SYSTEMS WITH LONG DELAY AND DATA PACKET DROPOUT

Chengjin Zhang, Xiaomei Qi, and Jason Gu

References

1. [1] W. Zhang, M. Branicky, and S. Phillips, Stability of networked control systems, IEEE Control Systems Magazine, 21 (1), 2001, 84–99.
2. [2] G. Walsh, H. Ye, and L. Bushnell, Stability analysis of networked control systems, IEEE Transactions on Control Systems Technology, 10 (3), 2002, 438–446.
3. [3] J. Hespanha, P. Naghshtabrizi, and Y. Xu, A survey of recent results in networked control systems, Proceedings of the IEEE, 95 (1), 2007, 138–162.
4. [4] M.B.G. Cloosterman, L. Hetel, N. van de Wouw, W.P.M.H.Heemels, J. Daafouz, and H. Nijmeijer, Controller synthesis for networked control systems, Automatica, 46(10), 2010, 1584–1594.
5. [5] L. Zhang, Y. Shi, T. Chen, and B. Huang, A new methodfor stabilization of networked control systems with randomdelays, IEEE Transactions on Automatic Control, 50(8), 2005, 1177–1181.
6. [6] Y. Shi and B. Yu, Output feedback stabilization of networked control systems with random delays modeled by Markov chains, IEEE Transactions on Automatic Control, 54(7), 2009, 1668–1674.
7. [7] K.C. Walker, Y.J. Pan, and J. Gu, Bilateral teleoperation over networks based on stochastic switching approach, IEEE/ASME Transactions on Mechatronics, 14(5), 2009, 539–554.
8. [8] S.S. Hu and Q.X. Zhu, Stochastic optimal control and analysis of stability of networked control systems with long delay, Automatica, 39(11), 2003, 1877–1884.
9. [9] S.B. Li, Z. Wang, and Y.X. Sun, Delay-dependent controller design for networked control systems with long time delays: An iterative LMI method, Proc. of the 5th WCICA, Hangzhou, China, June 15–19, 2004, 1338–1342.
10. [10] Z.D. Wang, D.W.C. Ho, Y.R. Liu, and X.H. Liu, Robust H∞ control for a class of nonlinear discrete time-delay stochastic systems with missing measurements, Automatica, 45(3), 2009, 684–691.
11. [11] H. Xu, S. Jagannathan, and F.L. Lewis, Stochastic optimal control of unknown networked control systems in the presence of random delays and packet losses, Automatica, 48(6), 2012, 1017–1030.
12. [12] H. Xu and S. Jagannathan, Stochastic optimal controller design for uncertain nonlinear networked control system via neuro dynamic programming, IEEE Transactions on Neural Networks and Learning Systems, 24(3), 2013, 471–484.
13. [13] G. Walsh and H. Ye, Scheduling of networked control systems, IEEE Control Systems Magazine, 21(1), 2001, 57–65.
14. [14] M. Blanke, M. Kinnaert, J. Lunze, and M. Staroswiecki, Diagnosis and fault-tolerant control (Springer, Berlin, Germany, 2003).
15. [15] J. Chen and R.J. Patton, Robust model-based fault diagnosis for dynamic systems (Kluwer Academic Publishers, Boston, 1999).
16. [16] M.Y. Zhong, S.X. Ding, and E.L. Ding, Optimal fault detection for linear discrete time-varying systems, Automatica, 46(8), 2010, 1395–1400.
17. [17] B. Thumati and S. Jagannathan, A model based fault detection and prediction scheme for nonlinear multivariable discrete-time systems with asymptotic stability guarantees, IEEE Transactions on Neural Networks, 21 (3), 2010, 404–423.
18. [18] X.M. Qi and C.J. Zhang, Robust H∞ fault detection filter for networked control system with network-induced uncertainties, Proc. of IEEE ICAL, Zhengzhou, China, 2012, 167–172.
19. [19] X. He, Z.D. Wang, and D.H. Zhou, Robust fault detection for networked systems with communication delay and data missing, Automatica, 45(11), 2009, 2634–2639.
20. [20] S. Fu, H.J. Fang, and X.B. Wan, Fault detection for networked systems subject to access constraints and packet dropouts, Journal of Systems Engineering and Electronics, 22(1), 2011, 127–134.
21. [21] X.B. Wan, H.J. Fang, and S. Fu, Observer-based fault detection for networked discrete-time infinite-distributed delay systems with packet dropouts, Applied Mathematical Modelling, 36(1), 2012, 270–278.
22. [22] X. He, Z.D. Wang, Y.D. Ji, and D.H. Zhou, Robust faultdetection for networked systems with distributed sensors, IEEE Transactions on Aerospace and Electronic Systems, 47(1), 2011, 166–177.
23. [23] Y.Q. Wang, S.X. Ding, H. Ye, and G.Z. Wang, Fault detection of networked control systems subject to access constraints and random packet dropout, Acta Automatica Sinca, 35(9), 2009, 1230–1234.
24. [24] Y.Q. Wang, H. Ye, S.X. Ding, G.Z. Wang, and D.H. Zhou,Residual generation and evaluation of networked control systems subject to random packet dropout, Automatica, 45(10), 2009, 2427–2434.
25. [25] Z. Mao, B. Jiang, and P. Shi, H∞ fault detection filter design for networked control systems modelled by discrete Markovian jump systems, IET Control Theory and Applications, 1(5), 2007, 1336–1343.
26. [26] C. Peng, D. Yue, E.G. Tian, and Z. Gu, Observer-basedfault detection for networked control systems with networkquality of services, Applied Mathematical Modelling, 34(6),2010, 1653–1661.
27. [27] Y.Q. Wang, S.X. Ding, H. Ye, and G.Z. Wang, A new fault detection scheme for networked control systems subject to uncertain time varying delay, IEEE Transactions on Signal Processing, 56(10), 2008, 5258–5268.
28. [28] Y. Wang, L. Xie, and C.E. de Souza, Robust control of class uncertain nonlinear systems, Systems and Control Letters, 19(2), 1992, 139–149.

Important Links:

• Abstract
• DOI: 10.2316/Journal.201.2013.4.201-2525
• From Journal (201) Mechatronic Systems and Control (formerly Control and Intelligent Systems) - 2013

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