A survey of inter-flow network coding in wireless mesh networks with unicast traffic

A survey of inter-flow network coding in wireless mesh networks with unicast traffic

Wireless network performance is much restricted by the unreliability of the wireless channel and the competition among different flows for the shared network resources such as the bandwidth. Network coding is a technique that exploits the broadcast of the wireless channel and can effectively address...

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Bibliographic Details
Published in:Computer networks (Amsterdam, Netherlands : 1999) Vol. 91; pp. 738 - 751
Main Authors: Xie, L.F., Chong, Peter H.J., Ho, Ivan W.H., Guan, Y.L.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 14-11-2015
Elsevier Sequoia S.A
Subjects:
Broadcast channel
Channel unreliability
Channels
Coding
Coding theory
Communication channels
Competition
Design factors
Inter-flow network coding
Links
Networks
Packet transmission
Packets (communication)
Studies
Traffic flow
Unicast traffic
Wireless communication
Wireless mesh networks
Wireless networks
Inter-flow network coding
Channel unreliability
Broadcast channel
Unicast traffic
Wireless mesh networks
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Summary:Wireless network performance is much restricted by the unreliability of the wireless channel and the competition among different flows for the shared network resources such as the bandwidth. Network coding is a technique that exploits the broadcast of the wireless channel and can effectively address these two restrictions to improve network performance. For example, with network coding, an intermediate node of multiple flows can encode packets from these flows into one mixed packet and serve these flows using only one transmission instead of multiple transmissions in the traditional way, thus mitigating the competition among flows. Inter-flow network coding (XNC), as a form of network coding, considers encoding packets from different flows, and it can benefit wireless mesh networks (WMNs) with either reliable or lossy links. In this paper, we present a survey on XNC in WMNs for unicast traffic, with various design factors related to XNC being covered. Specifically, our survey considers two types of WMNs, one with reliable links and the other with lossy links, and we study how XNC can be effectively utilized in both two types of WMNs. In addition to the benefits of XNC, we also present in this survey some drawbacks of applying XNC in WMNs. With this paper, we believe that readers will have a more thorough understanding of XNC on how it effectively mitigates the resource competition among flows and the channel unreliability problem in WMNs.
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ISSN:1389-1286
1872-7069
DOI:10.1016/j.comnet.2015.08.044