FINITE TIME STABILITY OF DISCRETE MARKOVIAN JUMP SYSTEM OVER NETWORKS WITH RANDOM DUAL-DELAY, 153-161..

Zhen Zhou, Hongbin Wang, Zhongquan Hu, and Xiaojun Xue

References

1. [1] H. Chen, J. Gao, T. Shi, and R. Lu, H∞ control for networkedcontrol systems with time delay, data packet dropout anddisorder, Neurocomputing, 179(C), 2016, 211–218.160
2. [2] Y. Cao, W. Yu, W. Ren, and G. Chen, An overview of recentprogress in the study of distributed multi-agent coordination,IEEE Transactions on Industrial Informatics, 9(1), 2013,427–438.
3. [3] H. Wang, L. Ji, and Z. Zhou, ESO-based consensus of multipleEuler-Lagrange systems under a fixed or switching topology,Control and Intelligent Systems, 45(2), 2017, 1–8.
4. [4] H. Li, L. Wu, J. Li, F. Sun, and Y. Xia, Stabilization andseparation principle of networked control systems using the T-Sfuzzy model approach, IEEE Transactions on Fuzzy Systems,23(5), 2015, 1832–1843.
5. [5] R. Saravanakumar, M. Syed Ali, and M. Hua, H∞ stateestimation of stochastic neural networks with mixed time-varying delays, Soft Computing, 20(9), 2016, 3475–3487.
6. [6] M. Syed Ali, R. Saravanakumar, and J. Cao, New passivitycriteria for memristor-based neutral-type stochastic BAM neural networks with mixed time-varying delays, Neurocomputing,171(C), 2016, 1533–1547.
7. [7] C. Huang, Y. Bai, and X. Liu, H∞ state feedback control fora class of networked cascade control systems with uncertaindelay, IEEE Transactions on Industrial Informatics, 6(1),2010, 62–72.
8. [8] M.A. Khanesar, O. Kaynak, S. Yin, and H. Guo, Adaptiveindirect fuzzy sliding mode controller for networked controlsystems subject to time-varying network-induced time delay,IEEE Transactions on Fuzzy Systems, 23(1), 2015, 205–214.
9. [9] X. Yin, Z. Li, L. Zhang, C. Wang, W. Shammakh, and B.Ahmad, Model reduction of a class of Markov jump nonlinearsystems with time-varying delays via projection approach,Neurocomputing, 166(C), 2015, 436–446.
10. [10] J. Xiong and J. Lam, Stabilization of discrete-time Markovianjump linear systems via time-delayed controllers, Automatica,42(5), 2006, 747–753.
11. [11] M. Liu, D.W.C. Ho, and Y. Niu, Stabilization of Markovianjump linear system over networks with random communicationdelay, Automatica, 45(5), 2008, 416–421.
12. [12] R. Saravanakumar, M. Syed Ali, C.K. Ahn, H.R. Karimi,and P. Shi, Stability of Markovian jump generalized neuralnetworks with interval time-varying delays, IEEE Transactions on Neural Networks and Learning Systems, 28(8), 2017,1840–1850.
13. [13] B. Chen, Y. Niu, and Y. Zou, Adaptive sliding mode control for stochastic Markovian jumping systems with actuatordegradation, Automatica, 49(6), 2013, 1748–1754.
14. [14] M. Sun and J. Lam, Model reduction of discrete Markovianjump systems with time-weighted H2 performance, International Journal of Robust and Nonlinear Control, 26(3), 2016,401–425.
15. [15] F. Li, P. Shi, L. Wu, M. Basin, and C. Lim, Quantized controldesign for cognitive radio networks modeled as nonlinear semi-Markovian jump systems, IEEE Transactions on IndustrialElectronics, 62(4), 2015, 2330–2340.
16. [16] J. Wang, Q. Zhang, and F. Bai, Robust control of discrete-time singular Markovian jump systems with partly unknowntransition probabilities by static output feedback, InternationalJournal of Control, Automation and Systems, 13(6), 2015,1313–1325.
17. [17] D. Huang and S.K. Nguang, State feedback control of uncertainnetworked control systems with random time delays, IEEETransactions on Automatic Control, 53(3), 2008, 829–834.
18. [18] F. Amato, G. De Tommasi, and A. Pironti, Necessary and sufficient conditions for finite-time stability of impulsive dynamicallinear systems, Automatica, 49(8), 2013, 2546–2550.
19. [19] Z. Yan, G. Zhang, and W. Zhang, Finite-time stability andstabilization of linear Ito stochastic systems with state andcontrol-dependent noise, Asian Journal of Control, 15(1), 2013,270–281.
20. [20] Z. Yan, W. Zhang, and G. Zhang, Finite-time stability and stabilization of Ito stochastic systems with Markovian switching:Mode-dependent parameter approach, IEEE Transactions onAutomatic Control, 60(9), 2015, 2428–2433.
21. [21] F. Amato, C. Cosentino, G. De Tommasi, and A. Pironti, Newconditions for the finite-time stability of stochastic linear time-varying systems, IEEE 2015 European Control Conf. (ECC),Linz, Austria, 2015, 1219–1224.
22. [22] J. Yin and S. Khoo, Continuous finite-time state feedbackstabilizers for some nonlinear stochastic systems, International Journal of Robust and Nonlinear Control, 25(11), 2015,1581–1600.

Important Links:

• Abstract
• DOI: 10.2316/J.2019.201-3037
• From Journal (201) Mechatronic Systems and Control - 2019

Go Back