Implementation and Evaluation of Multichannel Multi-Interface Routing Mechanism with QoS-Consideration for Ad-Hoc Networks

Implementation and Evaluation of Multichannel Multi-Interface Routing Mechanism with QoS-Consideration for Ad-Hoc Networks

<p/> <p>To accommodate real-time multimedia application while satisfying application-level QoS requirements in a wireless ad-hoc network, we need QoS control mechanisms. We proposed a new routing mechanism for a wireless ad-hoc network composed of nodes equipped with multiple network int...

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Main Authors: Satoh Hiroki, Monden Kazuya, Matsui Susumu, Hayashi Masato, Kajioka Shinsuke, Wakamiya Naoki, Murata Masayuki
Format: Article
Language:English
Published: SpringerOpen 2010-01-01
Series:EURASIP Journal on Wireless Communications and Networking
Online Access:http://jwcn.eurasipjournals.com/content/2010/404927
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spelling doaj-4637287e24ff4a0fbb6298322df22a322020-11-25T02:51:26ZengSpringerOpenEURASIP Journal on Wireless Communications and Networking1687-14721687-14992010-01-0120101404927Implementation and Evaluation of Multichannel Multi-Interface Routing Mechanism with QoS-Consideration for Ad-Hoc NetworksSatoh HirokiMonden KazuyaMatsui SusumuHayashi MasatoKajioka ShinsukeWakamiya NaokiMurata Masayuki<p/> <p>To accommodate real-time multimedia application while satisfying application-level QoS requirements in a wireless ad-hoc network, we need QoS control mechanisms. We proposed a new routing mechanism for a wireless ad-hoc network composed of nodes equipped with multiple network interfaces. By embedding information about channel usage in control messages of OLSRv2, each node obtains a view of topology and bandwidth information of the whole network. Based on the obtained information, a source node determines a logical path with the maximum available bandwidth to satisfy application-level QoS requirements. In this paper, we evaluated feasibility of the proposal through simulation and practical experiments and confirmed that our proposal effectively transferred multimedia packets over a logical path avoiding congested links. The load on a network is well distributed and the network can accommodate more sessions than OLSRv2 and QOLSR.</p>http://jwcn.eurasipjournals.com/content/2010/404927
collection DOAJ
language English
format Article
sources DOAJ
author Satoh Hiroki
Monden Kazuya
Matsui Susumu
Hayashi Masato
Kajioka Shinsuke
Wakamiya Naoki
Murata Masayuki
spellingShingle Satoh Hiroki
Monden Kazuya
Matsui Susumu
Hayashi Masato
Kajioka Shinsuke
Wakamiya Naoki
Murata Masayuki
Implementation and Evaluation of Multichannel Multi-Interface Routing Mechanism with QoS-Consideration for Ad-Hoc Networks
EURASIP Journal on Wireless Communications and Networking
author_facet Satoh Hiroki
Monden Kazuya
Matsui Susumu
Hayashi Masato
Kajioka Shinsuke
Wakamiya Naoki
Murata Masayuki
author_sort Satoh Hiroki
title Implementation and Evaluation of Multichannel Multi-Interface Routing Mechanism with QoS-Consideration for Ad-Hoc Networks
title_short Implementation and Evaluation of Multichannel Multi-Interface Routing Mechanism with QoS-Consideration for Ad-Hoc Networks
title_full Implementation and Evaluation of Multichannel Multi-Interface Routing Mechanism with QoS-Consideration for Ad-Hoc Networks
title_fullStr Implementation and Evaluation of Multichannel Multi-Interface Routing Mechanism with QoS-Consideration for Ad-Hoc Networks
title_full_unstemmed Implementation and Evaluation of Multichannel Multi-Interface Routing Mechanism with QoS-Consideration for Ad-Hoc Networks
title_sort implementation and evaluation of multichannel multi-interface routing mechanism with qos-consideration for ad-hoc networks
publisher SpringerOpen
series EURASIP Journal on Wireless Communications and Networking
issn 1687-1472
1687-1499
publishDate 2010-01-01
description <p/> <p>To accommodate real-time multimedia application while satisfying application-level QoS requirements in a wireless ad-hoc network, we need QoS control mechanisms. We proposed a new routing mechanism for a wireless ad-hoc network composed of nodes equipped with multiple network interfaces. By embedding information about channel usage in control messages of OLSRv2, each node obtains a view of topology and bandwidth information of the whole network. Based on the obtained information, a source node determines a logical path with the maximum available bandwidth to satisfy application-level QoS requirements. In this paper, we evaluated feasibility of the proposal through simulation and practical experiments and confirmed that our proposal effectively transferred multimedia packets over a logical path avoiding congested links. The load on a network is well distributed and the network can accommodate more sessions than OLSRv2 and QOLSR.</p>
url http://jwcn.eurasipjournals.com/content/2010/404927
work_keys_str_mv AT satohhiroki implementationandevaluationofmultichannelmultiinterfaceroutingmechanismwithqosconsiderationforadhocnetworks
AT mondenkazuya implementationandevaluationofmultichannelmultiinterfaceroutingmechanismwithqosconsiderationforadhocnetworks
AT matsuisusumu implementationandevaluationofmultichannelmultiinterfaceroutingmechanismwithqosconsiderationforadhocnetworks
AT hayashimasato implementationandevaluationofmultichannelmultiinterfaceroutingmechanismwithqosconsiderationforadhocnetworks
AT kajiokashinsuke implementationandevaluationofmultichannelmultiinterfaceroutingmechanismwithqosconsiderationforadhocnetworks
AT wakamiyanaoki implementationandevaluationofmultichannelmultiinterfaceroutingmechanismwithqosconsiderationforadhocnetworks
AT muratamasayuki implementationandevaluationofmultichannelmultiinterfaceroutingmechanismwithqosconsiderationforadhocnetworks
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