DocumentCode
1625195
Title
Decrease round-trip time in Reno TCP
Author
Kharati, E.
Author_Institution
Comput. Eng. Dept., Islamic Azad Univ. of Arak, Arak, Iran
fYear
2012
Firstpage
733
Lastpage
736
Abstract
For a particular Internet connection the number of outstanding packets is controlled by TCP´s current window size. During congestion avoidance phase, the congestion window is increased by 1 packet roughly during every RTT. It means that in each second, the throughput of a typical node can be increased by 1/RTT pkts. Therefore, the sources with smaller RTT experience higher throughput than those with long RTT. Using Opnet Modeler simulator we show that how this RTT differences between competing traffic streams, can be the dominant factor in relative throughput. In order to decrease this discrimination, we introduce a parametric algorithm for congestion window (cwnd) and therefore for rate control. We show that using an appropriate formulation derived from overall optimization problem, the network implicit objective function provides a Lyapunov function for the dynamic system defined by the rate control algorithm. Then we show that how this mathematical model are being used to address fairness problem of the rate control algorithms in the Internet. Our simulation results show the success of the proposed algorithm.
Keywords
Internet; mathematical analysis; telecommunication congestion control; transport protocols; Internet connection; Opnet Modeler simulator; Reno TCP; congestion avoidance phase; congestion window; decrease round-trip time; dynamic system; mathematical model; optimization problem; outstanding packets; rate control algorithms; traffic streams; Bandwidth; Delays; Equations; Internet; Jacobian matrices; Mathematical model; Proposals; Congestion Control; Fairness; Modeling; TCP;
fLanguage
English
Publisher
ieee
Conference_Titel
Telecommunications (IST), 2012 Sixth International Symposium on
Conference_Location
Tehran
Print_ISBN
978-1-4673-2072-6
Type
conf
DOI
10.1109/ISTEL.2012.6483082
Filename
6483082
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