Maximum flow and network capacity of network coding for ad-hoc networks

Hongzheng Wang; Pingyi Fan; Khaled Ben Letaief

doi:10.1109/TWC.2007.05499

Maximum flow and network capacity of network coding for ad-hoc networks

Hongzheng Wang^*, Pingyi Fan, Khaled Ben Letaief

^*Corresponding author for this work

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19 Citations (Scopus)

Abstract

Network coding is an effective way to achieve the maximum flow of multicast networks. In this letter, we focus on the statistical properties of the maximum flow or the capacity of network coding for ad-hoc networks based on random graph models. Theoretical analysis shows that the maximum flow can be modelled as extreme order statistics of Gaussian distribution for both wired and wireless ad-hoc networks as the node number is relatively large under a certain condition. We also investigate the effects of the nodes' covering capabilities on the capacity of network coding.

Original language	English
Pages (from-to)	4193-4198
Number of pages	6
Journal	IEEE Transactions on Wireless Communications
Volume	6
Issue number	12
DOIs	https://doi.org/10.1109/TWC.2007.05499
Publication status	Published - Dec 2007

Keywords

Extreme order statistics
Max-flow mincut
Network capacity
Network coding
Random graph

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10.1109/TWC.2007.05499

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abstract = "Network coding is an effective way to achieve the maximum flow of multicast networks. In this letter, we focus on the statistical properties of the maximum flow or the capacity of network coding for ad-hoc networks based on random graph models. Theoretical analysis shows that the maximum flow can be modelled as extreme order statistics of Gaussian distribution for both wired and wireless ad-hoc networks as the node number is relatively large under a certain condition. We also investigate the effects of the nodes' covering capabilities on the capacity of network coding.",

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author = "Hongzheng Wang and Pingyi Fan and Letaief, \{Khaled Ben\}",

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AU - Fan, Pingyi

AU - Letaief, Khaled Ben

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N2 - Network coding is an effective way to achieve the maximum flow of multicast networks. In this letter, we focus on the statistical properties of the maximum flow or the capacity of network coding for ad-hoc networks based on random graph models. Theoretical analysis shows that the maximum flow can be modelled as extreme order statistics of Gaussian distribution for both wired and wireless ad-hoc networks as the node number is relatively large under a certain condition. We also investigate the effects of the nodes' covering capabilities on the capacity of network coding.

AB - Network coding is an effective way to achieve the maximum flow of multicast networks. In this letter, we focus on the statistical properties of the maximum flow or the capacity of network coding for ad-hoc networks based on random graph models. Theoretical analysis shows that the maximum flow can be modelled as extreme order statistics of Gaussian distribution for both wired and wireless ad-hoc networks as the node number is relatively large under a certain condition. We also investigate the effects of the nodes' covering capabilities on the capacity of network coding.

KW - Extreme order statistics

KW - Max-flow mincut

KW - Network capacity

KW - Network coding

KW - Random graph

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JO - IEEE Transactions on Wireless Communications

JF - IEEE Transactions on Wireless Communications

IS - 12

ER -

Maximum flow and network capacity of network coding for ad-hoc networks

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Keywords

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