The work deals with game control models of data flows in networks that use TCP congestion control algorithms. This paper presents an overview of the problems, highlighted its relevance, and described current approaches to its solution. For networks with varying data flows and the presence of conflicting users, a new approach to the analysis based on conflict-control fluid models is proposed. We build controlled model for constant window and demonstrate the existence of optimal solution of the download file problem. A game of two users that transmit data over a shared communication channel is considered and found the conditions of data losses.

Meyn S. Control Techniques for Complex Networks. – Cambridge University Press. – 2007. – 582 p.

Kelly F.P. Charging and rate control for elastic traffic // European Trans. on Telecommunications. – 1997. – 8. – Р. 33 – 37.

Mo J., Walrand J. Fair end-to-end window-based congestion control // IEEE/ACM Transactions on Networking. – 2000. – 8. – P. 556 – 567.

La R.J., Anantharam V. Charge-sensitive TCP and rate control in the Internet // Proc. IEEE Infocom. – 2000. – P. 1166 – 1175.

Low S.H., Lapsley D.E. Optimization flow control: Basic algorithm and convergence // IEEE/ACM Transactions on Networking. – 1999. – 7, N 6. – P. 861 – 874.

Paganini F., Doyle J.C., Low S.H. Scalable laws for stable network congestion control // Proc. of IEEE Conference on Decision and Control. – 2001. – 1. – P. 185 – 190.

Kunniyur S. and Srikant R. "A time-scale decomposition approach to adaptive explicit congestion notification (ECN) marking," // IEEE Transactions on Automatic Control, June 2002. – Vol. 47(6). – P. 882–894.

Low S.H., Srikant R. A Mathematical Framework for Designing a Low-Loss, Low-Delay Internet // Network and Spatial Economics. – 2004. – 4 (1). – P. 75 – 102.

Low S. Paganini F., Doyle J. Internet congestion control // IEEE Control Syst. Mag. – 2002. – 22 (1). – Р. 28–43.

Alpcan T. and Başar T. Network Security: A Decision and Game Theoretic Approach. Cambridge University Press, 2010.

Alpcan T. and Başar T. "A game theoretic analysis of intrusion detection in access control systems," in Proc. of the 43rd IEEE Conference on Decision and Control, Paradise Island, Bahamas, December 2004. – P. 1568–1573.

Floyd S. and Jacobson V. Random early detection gateways for congestion avoid-ance // IEEE/ACM Transactions on Networking. – 1993. –1(4). – P. 397–413.

Hollot C. V., Misra V., Towsley D., and Gong W. Analysis and design of controllers for AQM routers supporting TCP flows // IEEE Transactions on Automatic Control. – 2002. – 47(6). – P. 945–959.

Tan L., Zhang W., Peng G., and Chen G. Stability of TCP/RED systems in AQM routers // IEEE Transactions on Automatic Control. – 2006. – 51(8). – P. 1393–1398.

Deb S. and Srikant R. Global stability of congestion controllers for the Internet // IEEE Transactions on Automatic Control. – 2003. – 48(6). – P. 1055–1060.

Ying L., Dullerud G. E., and Srikant R. Global stability of Internet congestion controllers with heterogeneous delays // IEEE/ACM Transactions on Networking. – 2006. – 14(3). – P. 579–591.

Wei. X. Microscopic behavior of TCP congestion control. PhD thesis, California Institute of Technology. 2007.

Welzl M. Network Congestion Control: Managing Internet Traffic. Wiley. – 2005. – 263 р.

Jacobsson K. Dynamic modeling of Internet congestion control. PhD thesis, KTH school 2008 of electrical engeneering.

Möller. N. Window-based congestion control. PhD thesis, The Royal Institute of Technology, KTH. 2008.