A robust wireless transmission control protocol to cope with channel errors in a long round-trip delay environment

Extending the TCP (transmission control protocol) to the wireless domain is a hot research topic at the present time. It is also implemented in a long round-trip delay, e.g., satellite channel. Performance degradation due to the TCP's misinterpretation of corruption loss as congestion loss has...

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Main Authors: Shu-wen Teng, Jin-Fu Chang
Format: Conference Proceeding
Language:English
Subjects:
Computer networks
Delay
Electronic mail
Error correction
Low earth orbit satellites
Optical fibers
Robust control
Satellite broadcasting
TCPIP
Wireless application protocol
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Jin-Fu Chang
description Extending the TCP (transmission control protocol) to the wireless domain is a hot research topic at the present time. It is also implemented in a long round-trip delay, e.g., satellite channel. Performance degradation due to the TCP's misinterpretation of corruption loss as congestion loss has been reported in the literature. This paper proposes a threshold-based TCP to prevent it from reacting to cell losses due to corruption, that is, channel error. It is demonstrated through numerical experiments that the proposed scheme can effectively mitigate the negative impact of wireless channel errors on the performance of TCP.
doi_str_mv 10.1109/ICTEL.2003.1191495
format conference_proceeding
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Computer networks
Delay
Electronic mail
Error correction
Low earth orbit satellites
Optical fibers
Robust control
Satellite broadcasting
TCPIP
Wireless application protocol
title A robust wireless transmission control protocol to cope with channel errors in a long round-trip delay environment
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