Reliable Transport Performance in Mobile Environments

Reliable Transport Performance in Mobile Environments

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Expanding the global Internet to include mobile devices is an exciting area of current research. Because of the vast size of the Internet, and because the protocols in it are already widely deployed, mobile devices must inter-operate with those protocols. Although most of the incompatiblities w...

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Bibliographic Details
Main Author: McSweeney, Martin
Format: Others
Language:en
Published: University of Waterloo 2006
Subjects:
Computer Science
Mobile IP
TCP
TCP performance
mobility
wireless
congestion control
Online Access:http://hdl.handle.net/10012/1146
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-OWTU.10012-11462013-10-04T04:07:19ZMcSweeney, Martin2006-08-22T14:25:36Z2006-08-22T14:25:36Z20012001http://hdl.handle.net/10012/1146Expanding the global Internet to include mobile devices is an exciting area of current research. Because of the vast size of the Internet, and because the protocols in it are already widely deployed, mobile devices must inter-operate with those protocols. Although most of the incompatiblities with mobiles have been solved, the protocols that deliver data reliably, and that account for the majority of Internet traffic, perform very poorly. A change in location causes a disruption in traffic, and disruption is dealt with by algorithms tailored only for stationary hosts. The Transmission Control Protocol (TCP) is the predominant transport-layer protocol in the Internet. In this thesis, we look at the performance of TCP in mobile environments. We provide a complete explanation for poor performance; we conduct a large number of experiments, simulations, and analyses that prove and quantify poor performance;and we propose simple and scalable solutions that address the limitations.application/pdf583080 bytesapplication/pdfenUniversity of WaterlooCopyright: 2001, McSweeney, Martin. All rights reserved.Computer ScienceMobile IPTCPTCP performancemobilitywirelesscongestion controlReliable Transport Performance in Mobile EnvironmentsThesis or DissertationSchool of Computer ScienceMaster of Mathematics
collection NDLTD
language en
format Others
sources NDLTD
topic Computer Science
Mobile IP
TCP
TCP performance
mobility
wireless
congestion control
spellingShingle Computer Science
Mobile IP
TCP
TCP performance
mobility
wireless
congestion control
McSweeney, Martin
Reliable Transport Performance in Mobile Environments
description Expanding the global Internet to include mobile devices is an exciting area of current research. Because of the vast size of the Internet, and because the protocols in it are already widely deployed, mobile devices must inter-operate with those protocols. Although most of the incompatiblities with mobiles have been solved, the protocols that deliver data reliably, and that account for the majority of Internet traffic, perform very poorly. A change in location causes a disruption in traffic, and disruption is dealt with by algorithms tailored only for stationary hosts. The Transmission Control Protocol (TCP) is the predominant transport-layer protocol in the Internet. In this thesis, we look at the performance of TCP in mobile environments. We provide a complete explanation for poor performance; we conduct a large number of experiments, simulations, and analyses that prove and quantify poor performance;and we propose simple and scalable solutions that address the limitations.
author McSweeney, Martin
author_facet McSweeney, Martin
author_sort McSweeney, Martin
title Reliable Transport Performance in Mobile Environments
title_short Reliable Transport Performance in Mobile Environments
title_full Reliable Transport Performance in Mobile Environments
title_fullStr Reliable Transport Performance in Mobile Environments
title_full_unstemmed Reliable Transport Performance in Mobile Environments
title_sort reliable transport performance in mobile environments
publisher University of Waterloo
publishDate 2006
url http://hdl.handle.net/10012/1146
work_keys_str_mv AT mcsweeneymartin reliabletransportperformanceinmobileenvironments
_version_ 1716599584923320320

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