Improving TCP/IP over geostationary satellite links

Author

Barakat, Chadi ; Chaher, Nesrine ; Dabbous, Walid ; Altman, Eitan

Author_Institution

INRIA, Sophia Antipolis, France

fYear

1999

fDate

6/21/1905 12:00:00 AM

Firstpage

781

Abstract

We focus in this paper on the undesirable phenomenon of early buffer overflow during slow start (SS) when TCP operates in large bandwidth-delay product networks such as those including geostationary satellite links. This phenomenon, already identified by Altman, Bolot, Nain, Elouadghiri, Erramdani, Brown and Collange (1995) and by Lakshman and Madhow (see IEEE/ACM Transactions on Networking, 1997) is caused by the bursty type of TCP traffic during SS. It results in an underestimation of the available bandwidth and a degradation in TCP throughput. Given the high cost and the scarcity of satellite links, it is of importance to find solutions to this problem. We propose two simple modifications to TCP algorithms and illustrate their effectiveness via mathematical analysis and simulations. First, we reduce the SS threshold in order to get in congestion avoidance before buffer overflow. Second, we space the transmission of packets during SS

Keywords

buffer storage; delays; packet switching; satellite links; telecommunication congestion control; telecommunication traffic; transport protocols; TCP algorithms; TCP throughput; TCP/IP; bursty TCP traffic; congestion avoidance; early buffer overflow; geostationary satellite links; large bandwidth-delay product networks; mathematical analysis; packet transmission; simulations; slow start; Analytical models; Bandwidth; Buffer overflow; Costs; Degradation; Mathematical analysis; Satellites; TCPIP; Telecommunication traffic; Throughput;

fLanguage

English

Publisher

ieee

Conference_Titel

Global Telecommunications Conference, 1999. GLOBECOM '99

Conference_Location

Rio de Janeireo

Print_ISBN

0-7803-5796-5

Type

conf

DOI

10.1109/GLOCOM.1999.830173

Filename

830173