Stabilization of Networked Interconnected Systems

Dan Jin; Li Yu; Wen-An Zhang

doi:10.20965/jaciii.2017.p0251

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JACIII Vol.21 No.2 pp. 251-257

doi: 10.20965/jaciii.2017.p0251

(2017)

Paper:

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Stabilization of Networked Interconnected Systems

Dan Jin^*,**, Li Yu^, and Wen-An Zhang^

^*Department of Automation, Zhejiang University of Technology
Hangzhou 310023, China

^**Wenzhou University
Wenzhou 325000, China

Received:

July 5, 2016

Accepted:

November 8, 2016

Online released:

March 15, 2017

Published:

March 20, 2017

Keywords:

networked interconnected systems, time-varying delays, decentralized stabilization

Abstract

In this paper, the decentralized stabilization of networked interconnected systems is investigated. The switched system approach is used to deal with the network-induced time-varying delays, and a discrete-time switched systems model is proposed to describe the networked interconnected systems. Furthermore, a sufficient condition is derived for the closed-loop systems to be exponentially stable by introducing the average dwell time, and a procedure for the design of decentralized state feedback controllers is presented by solving a convex optimization problem. A numerical example is given to illustrate the effectiveness of the proposed results.

Cite this article as:

D. Jin, L. Yu, and W. Zhang, “Stabilization of Networked Interconnected Systems,” J. Adv. Comput. Intell. Intell. Inform., Vol.21 No.2, pp. 251-257, 2017.

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References

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[19] Y. J. Pan, H. J. Marquez, and T. Chen, “Stabilization of remote control systems with unknown time varying delays,” Int. J. Control, Vol.79, No.7, pp. 752-763, 2006.
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This article is published under a Creative Commons Attribution-NoDerivatives 4.0 Internationa License.

[1] [1] A. Casavola, E. Garone, and F. Tedesco, “A distributed multi-agent command governor strategy for the coordination of networked interconnected systems,” IEEE Trans. on Automat. Contr., Vol.59, No.8, pp. 2099-2112, 2014.

[2] [2] E. G. Tian and D. Yue, “Decentralized control of network-based interconnected systems: A state- dependent triggering method,” Int. J. Robust and Nonlin. Contr., Vol.25, No.8, pp. 1126-1144, 2015.

[3] [3] C. C. Chiang, “Decentralized robust fuzzy-model- based control of uncertain large-scale systems with input Delay,” IEEE Int. Conf. on Fuzzy Syst., pp. 498-505, 2006.

[4] [4] S. S. Stankovic, D. M. Stipanovic and D. D. Siljak, “Decentralized dynamic output feedback for robust stabilization of a class of nonlinear interconnected systems,” Automatica, Vol.43, No.5, pp. 861-867, 2007.

[5] [5] H. L. Hu and D. Zhao, “Decentralized H_∞ control for uncertain interconnected systems of neutral type via dynamic output feedback,” Abstract and Applied Analysis, Vol.2014, No.10, 2014.

[6] [6] W. A. Zhang, L. Yu, and S. Yin, “A switched system approach to H_∞ control of networked control systems with time-varying delays,” J. Franklin Institute, Vol.348, No.2, pp. 165-178, 2011.

[7] [7] H. G. Zhang, Z. Zhang, Z. L. Wang, and Q. L. Shan, “New results on stability and stabilization of networked control systems with short time-varying delay,” IEEE Trans. on Cybern., Vol.PP, No.99, pp. 1-10, 2015.

[8] [8] H. Lin and P. J. Antsaklis, “Stability and persistent disturbance attenuation properties for a class of networked control systems: switched system approach,” Int. J. Control, Vol.78, No.18, pp. 1447-1458, 2005.

[9] [9] D. D. Yang and K. Y. Cai, “Decentralized networked stabilization for interconnected nonlinear systems: A fuzzy control approach,” Proc. of the 8th World Congress on Intel. Contr. and Autom., pp. 4823-4828, 2010.

[10] [10] G.eun Bum Koo, J. B. Park, and Y. H. Joo, “Decentralized dynamic output feedback controller for nonlinear interconnected systems with time delay: fuzzy logic approaches,” Int. Conf. on contr., Autom. and Syst., pp. 623-626, 2008.

[11] [11] Z. X. Zhong, S. H. Fu, G. H. Sun, and J. B. Qiu, “Decentralized piecewise H_∞ control for large-scale T-S fuzzy systems with time-varying delay,” IEEE Int. Conf. on Fuzzy Syst., pp. 1-6, 2015.

[12] [12] F. H. Hsiao, C. W. Chen, Y. W. Liang, S. D. Xu, and W. L. Chiang, “T-S Fuzzy Controllers for Nonlinear Interconnected Systems With Multiple Time Delays,” IEEE Trans. on Circuits and Syst. I, Vol.52, No.9, pp. 1883-1893, 2005.

[13] [13] Y. Zhao, H. Gao, J. Lam, and B. Du, “Stability and stabilization of delayed T-S fuzzy systems: a delay partitioning approach,” IEEE Trans. on Fuzzy Syst., Vol.17, No.4, pp. 750-762, 2009.

[14] [14] H. Zhang, J. Yang, and C.Y. Su, “T-S fuzzy- model-based robust H_∞ design for networked control systems with uncertainties,” IEEE Trans. on Ind. Inf., Vol.3, No.4, pp. 289-301, 2007.

[15] [15] H. Zhang, M. Li, J. Yang, and D. Yang, “Fuzzy model-based robust networked control for a class of nonlinear systems,” IEEE Trans. on Syst., Man, and Cybern. A, Vol.39, No.2, pp. 437-447, 2009.

[16] [16] J. Nilsson, “Real-time control systems with delays,” Ph.D. Thesis, Lund Institute of Technology, 1998.

[17] [17] S. S. Hu and Q. X. Zhu, “Stochastic optimal control and analysis of stability of networked control systems with long delay,” Automatica, Vol.39, No.11, pp. 1877-1884, 2003.

[18] [18] L. Hetel, J. Daafouz, and C. Lung, “Analysis and control of LTI and switched systems in the digital loops via an event-based modeling,” Int. J. Control, Vol.81, No.7, pp. 1125-1138, 2008.

[19] [19] Y. J. Pan, H. J. Marquez, and T. Chen, “Stabilization of remote control systems with unknown time varying delays,” Int. J. Control, Vol.79, No.7, pp. 752-763, 2006.

[20] [20] M. B. G. Cloosterman, N. van de Wouw, W. P. M. H. Heemels, and H. Nijmeijer, “Stability of networked control systems with uncertain time-varying delays,” IEEE Trans. on Automat. Contr., Vol.54, No.7, pp. 1575-1580, 2009.

[21] [21] L. S. Hu, T. Bai, P. Shi, and Z. M. Wu, “Sampled-data control of networked linear control systems,” Automatica, Vol.43, No.5, pp. 903-911, 2007.

[22] [22] G. S. Zhai, B. Hu, K. Yasuda, and A. Michel, “Qualitative analysis of discrete-time switched systems,” Proc. of the 21th American Contr. Conf., Vol.3, pp. 1880-1885, 2002.

Stabilization of Networked Interconnected Systems

Dan Jin*,**, Li Yu*, and Wen-An Zhang*

Dan Jin^*,**, Li Yu^, and Wen-An Zhang^