Identyfikatory
Warianty tytułu
Odporne sterowanie nieliniowym dynamicznym systemem sieciowym TCP
Języki publikacji
Abstrakty
This paper presents a robust control scheme for nonlinear TCP time-delay dynamic network systems. By introducing the interference and time-delay to improve the nonlinear model, the objective of the work described here was to express various interference and time-delay factors in the actual network running environment. Using proper coordinate transformation, evaluation signal and energy storage function, the robust controller was guaranteed to satisfy nonlinear L2 gain performance index. The desired queue size was achieved, and the asymptotic stability was obtaineed for nonlinear TCP time-delay dynamic network systems. In the paper this method ameliorates the complex algorithms of nonlinear TCP time-delay dynamic network systems, simplifies derivation and achieves more easily robust control algorithms for nonlinear dynamic network systems. Finally, the simulation results confirm the feasibility and effectiveness.
W artykule zaproponowano odporny system sterowania nieliniowym system sieciowym TCP z opóźnieniem czasowym. Zamodelowano róznego rodzaju interferencje i opóźnienia. Otrzymano pożądany rozmiar kolejki oraz stabilność systemu. Zaproponowana metoda stanowi uproszczenie możliwości sterowania nieliniowymi systemami sieciowymi.
Wydawca
Czasopismo
Rocznik
Tom
Strony
257--260
Opis fizyczny
Bibliogr. 18 poz., wykr.
Twórcy
autor
- Institute of Information Science and Engineering, Shenyang University of Technology, Shenyang Liaoning, China, 110870
autor
- Institute of Information Science and Engineering, Shenyang University of Technology, Shenyang Liaoning, China, 110870
Bibliografia
- [1] Floyd S., Jacobson V., Random early detection gateways for congestion avoidance, IEEE Transaction son Networking, 1(1993), No. 4, 397-413
- [2] Low S. H., Paganini F., Wang J., Dynamics of TCP/RED and a scalable control,Proceedings of IEEE INFOCOM, (2002), 239-248
- [3] Zhang W., Tan L. S., Peng G. D., Queue level control of TCP/RED systems in AQM routers, Computers and Electrical Engineering, 35(2009), No.1,59-70
- [4] James A., Michel O., Delfin Y.,Design of rate based controllers for active queue management in TCP/IP network,Computer Communications, 31 (2008), No.14, 3344-3359
- [5] Chen C. K., Hung Y. C., Liao T. L., Design of robust active queue management controllers for a class of TCP communication networks, Information Sciences, 177(2007), No,19,4059-4071
- [6] Sun P., Zeng F. H., Li S. J., Robust H control based on TCP dynamic network system model , Journal of Shenyang University of Technology, 32(2010), No.1,105-109
- [7] Chen H, Gao X Q, Wang H, et al. On Disturbance Attenuation of Nonlinear Moving Horizon Control. Lecture Notes in Control and Information Sciences, 358(2007),No.1, 283-294.
- [8] Li S. Q., Zhang S. X. ,A Simplifide State Feedback Method for Nonlinear Control Based on Exact Feedback Linearization,Proceedings of IEEE ICCASM , (2010),95- 98
- [9] Young S. M., Poog Y. P., Wook H. K., Delay-dependent robust stabilization of uncertain state-delayed systems, INT. J. Control, 74(2001), No.14, 1447-1455
- [10] Chen C. K., Liao T. L., Yan J. J., Active queue management controller design for TCP communication networks: Variable structure control approach, Chaos, Solitions & Fractals, 40(2009), No.1,277-285
- [11] Hung M. L., Huang C. F., Liao T. L., Design of active queue management algorithms for TCP networks: Nonlinear Output Feedback Approach,Proceedings of Computer Communication Control and Automation (2010), 282-285
- [12] Lu Q., Mei S. W., He W.,Recursive Design of Nonlinear H Excitation Controller, Science in China (Series E), 43 (2000),No.1, 23-31
- [13] VanDer S.,L2-Gain and Passivity Techniques in Nonlinear Control, London: Springer, (1996),1-247
- [14] Jocobson V., Karels M., Congestion avoidance and control, Proceedings of ACM SIGCOMM’88, (1988), 314-329
- [15] Xiong N., Yang L. T., Yang Y., A novel numerical algorithm based on self-tuning controller to support TCP flows,Mathematics and Computers in Simulation, 79(2008), No,4,1178-1188
- [16] Misra V., Gong W. B., Towsley D., Fluid-based analysis of a network of AQM routers supporting TCP flows with an application to RED,Proceedings of the ACM/SIGCOM, (2000), 151-160
- [17] Wang D., Hollot C. V., Robust analysis and design of controllers for a single flow ,Proceedings of the ICCT, (2003), 267-280
- [18] Liu F., Mei S. W., Lu Q., Nonlinear L2-Gain interference controller for the ASVG, Electric Power Systems Research, 1(2000), No.20, 11-15
Typ dokumentu
Bibliografia
Identyfikator YADDA
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