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Mobile Networks and Applications
Erschienen in: Mobile Networks and Applications 5-6/2007

01.12.2007

On Throughput Efficiency of Geographic Opportunistic Routing in Multihop Wireless Networks

Erschienen in: Mobile Networks and Applications | Ausgabe 5-6/2007

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Abstract

Geographic opportunistic routing (GOR) has shown throughput efficiency in coping with unreliable transmissions in multihop wireless networks. The basic idea behind opportunistic routing is to take advantage of the broadcast nature and spacial diversity of the wireless medium by involving multiple neighbors of the sender into the local forwarding, thus improve transmission reliability. The existing GOR schemes typically involve as many as available next-hop neighbors into the local forwarding, and give the nodes closer to the destination higher relay priorities. In this paper, we show that it is not always the optimal way to achieve the best throughput. We introduce a framework to analyze the one-hop throughput of GOR, provide a deeper insight into the trade-off between the benefit (packet advancement and transmission reliability) and cost (medium time delay) associated with the node collaboration, and propose a local metric named expected one-hop throughput (EOT) to balance the benefit and cost. We also identify an upper bound of EOT and its concavity, which indicates that even if the candidate coordination delay were negligible, the throughput gain would become marginal when the number of forwarding candidates increases. Based on the EOT, we also propose a local candidate selection and prioritization algorithm. Simulation results validate our analysis and show that the EOT metric leads to both better one-hop and path throughput than the corresponding pure GOR and geographic routing.
Vorheriger Artikel Towards an FBM Model Based Network Calculus Framework with Service Differentiation
Nächster Artikel QUORUM—Quality of Service in Wireless Mesh Networks

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Fußnoten
1
The node location information can be obtained by prior configuration, by the Global Positioning System (GPS) receiver, or through some sensor self-configuring localization mechanisms such as [4, 12].
 
2
In this paper, we set the threshold as 0.1.
 
3
Due to space limit, we only provide a sketch of the proof.
 
4
In this paper, an ordered node set \(\mathcal{A}\) containing another ordered node set \(\mathcal{B}\) means \(\mathcal{A}\) is obtained by inserting a new node into \(\mathcal{B}\) but keeping the priority relationship of nodes in \(\mathcal{B}\) unchanged. It’s not necessary for \(\mathcal{B}\) being a subsequence of \(\mathcal{A}\).
 
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Metadaten
Titel
On Throughput Efficiency of Geographic Opportunistic Routing in Multihop Wireless Networks
Publikationsdatum
01.12.2007
Erschienen in
Mobile Networks and Applications / Ausgabe 5-6/2007
Print ISSN: 1383-469X
Elektronische ISSN: 1572-8153
DOI
https://doi.org/10.1007/s11036-008-0051-7

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