Experimental Performance Evaluation of ATP (Ad-hoc Transport Protocol) in a Wireless Mesh Network

It is well known that TCP performs poorly in wireless mesh networks. There has been intensive research in this area, but most work uses simulation as the only evaluation method; however, it is not clear whether the performance gains seen with simulation will translate into benefits on real networks....

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Main Author: Zhang, Xingang
Format: Others
Published: BYU ScholarsArchive 2011
Subjects:
ATP
Online Access:https://scholarsarchive.byu.edu/etd/2775
https://scholarsarchive.byu.edu/cgi/viewcontent.cgi?article=3774&context=etd
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spelling ndltd-BGMYU2-oai-scholarsarchive.byu.edu-etd-37742021-09-01T05:02:07Z Experimental Performance Evaluation of ATP (Ad-hoc Transport Protocol) in a Wireless Mesh Network Zhang, Xingang It is well known that TCP performs poorly in wireless mesh networks. There has been intensive research in this area, but most work uses simulation as the only evaluation method; however, it is not clear whether the performance gains seen with simulation will translate into benefits on real networks. To explore this issue, we have implemented ATP (Ad-hoc Transport Protocol), a transport protocol designed specifically for wireless ad hoc networks. We have chosen ATP because it uses a radically different design from TCP and because reported results claim significant improvement over TCP. We show how ATP must be modified in order to be implemented in existing open-source wireless drivers, and we perform a comprehensive performance evaluation on mesh testbeds under different operating conditions. Our results show that the performance of ATP is highly sensitive to protocol parameters, especially the epoch timeout value. To improve its performance we design an adaptive version that utilizes a self-adjustable feedback mechanism instead of a fixed parameter. A comprehensive measurement study demonstrates the advantages of our adaptive ATP under various operating conditions. For networks with high bit-rate, low quality links, our adaptive version of ATP demonstrates an average of more than 50% gain in goodput over the default ATP for a single flow case. With respect to fairness, the adaptive ATP generally outperforms the default ATP by an order of magnitude in most results. 2011-06-28T07:00:00Z text application/pdf https://scholarsarchive.byu.edu/etd/2775 https://scholarsarchive.byu.edu/cgi/viewcontent.cgi?article=3774&context=etd http://lib.byu.edu/about/copyright/ Theses and Dissertations BYU ScholarsArchive performance evaluation ATP wireless mesh network Computer Sciences
collection NDLTD
format Others
sources NDLTD
topic performance evaluation
ATP
wireless mesh network
Computer Sciences
spellingShingle performance evaluation
ATP
wireless mesh network
Computer Sciences
Zhang, Xingang
Experimental Performance Evaluation of ATP (Ad-hoc Transport Protocol) in a Wireless Mesh Network
description It is well known that TCP performs poorly in wireless mesh networks. There has been intensive research in this area, but most work uses simulation as the only evaluation method; however, it is not clear whether the performance gains seen with simulation will translate into benefits on real networks. To explore this issue, we have implemented ATP (Ad-hoc Transport Protocol), a transport protocol designed specifically for wireless ad hoc networks. We have chosen ATP because it uses a radically different design from TCP and because reported results claim significant improvement over TCP. We show how ATP must be modified in order to be implemented in existing open-source wireless drivers, and we perform a comprehensive performance evaluation on mesh testbeds under different operating conditions. Our results show that the performance of ATP is highly sensitive to protocol parameters, especially the epoch timeout value. To improve its performance we design an adaptive version that utilizes a self-adjustable feedback mechanism instead of a fixed parameter. A comprehensive measurement study demonstrates the advantages of our adaptive ATP under various operating conditions. For networks with high bit-rate, low quality links, our adaptive version of ATP demonstrates an average of more than 50% gain in goodput over the default ATP for a single flow case. With respect to fairness, the adaptive ATP generally outperforms the default ATP by an order of magnitude in most results.
author Zhang, Xingang
author_facet Zhang, Xingang
author_sort Zhang, Xingang
title Experimental Performance Evaluation of ATP (Ad-hoc Transport Protocol) in a Wireless Mesh Network
title_short Experimental Performance Evaluation of ATP (Ad-hoc Transport Protocol) in a Wireless Mesh Network
title_full Experimental Performance Evaluation of ATP (Ad-hoc Transport Protocol) in a Wireless Mesh Network
title_fullStr Experimental Performance Evaluation of ATP (Ad-hoc Transport Protocol) in a Wireless Mesh Network
title_full_unstemmed Experimental Performance Evaluation of ATP (Ad-hoc Transport Protocol) in a Wireless Mesh Network
title_sort experimental performance evaluation of atp (ad-hoc transport protocol) in a wireless mesh network
publisher BYU ScholarsArchive
publishDate 2011
url https://scholarsarchive.byu.edu/etd/2775
https://scholarsarchive.byu.edu/cgi/viewcontent.cgi?article=3774&context=etd
work_keys_str_mv AT zhangxingang experimentalperformanceevaluationofatpadhoctransportprotocolinawirelessmeshnetwork
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