An enhanced TCP mechanism -- Fast-TCP in IP networks with wireless links. Ma, J., Ruutu, J., & Wu, J. Wireless Networks, 6(5):375-379, November, 2000. bibtex @article{ Ma00,
author = {Jian Ma and Jussi Ruutu and Jing Wu},
title = {An enhanced {TCP} mechanism -- {Fast-TCP} in {IP} networks with wireless links},
journal = {Wireless Networks},
year = {2000},
volume = {6},
number = {5},
pages = {375-379},
month = {November},
annote = {This paper presents the result of a study of using Fast-TCP over wireless links with transmission errors. The basic operation of Fast-TCP is for the router/gateway to delay acknowledgements when congestion is about to occur. This causes the sender to slow down its transmission, and ease congestion. It "has been proved that Fast-TCP can speed up TCP flow control time, reduce buffer ocillation, increase bandwidth utilization, increase throughput and reduce packet losses" in IP networks with wireless links, and now they wanted to see how it behaved in a wireless environment. The OPNET radio modeler was used to simulate a wireless link, and from the simulations it was concluded that Fast-TCP improves the performance of TCP over wireless (as well as wired then). Graphs show the buffer occupacy in the router being overloaded when regular TCP is used, but stays below limit with Fast-TCP. Although more buffer space is spent on buffering delayed acknowledgements, the total buffer load is decreased since acks are mostly empty packets. However the simulations seem quite weak, seemingly only doing one experiment with a BER of $10^{-8}$.},
bibdate = {Monday, August 19, 2002 at 08:56:27 (CEST)},
submitter = {Stefan Alfredsson}
}
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