Localized Minimum-Latency Broadcasting in Multi-radio Multi-rate Wireless Mesh Networks

Localized Minimum-Latency Broadcasting in Multi-radio Multi-rate Wireless Mesh Networks

We address the problem of minimizing the worst-case broadcast delay in ldquomulti-radio multi-channel multi-rate wireless mesh networksrdquo (MR2-MC WMN) in a distributed and localized fashion. Efficient broadcasting in such networks is especially challenging due to the desirability of exploiting th...

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Bibliographic Details
Main Authors: QADIR, Junaid, CHOU, Chun Tung, MISRA, Archan, LIM, Joo Ghee
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2008
Subjects:
Software Engineering
Online Access:https://ink.library.smu.edu.sg/sis_research/676
https://ink.library.smu.edu.sg/context/sis_research/article/1675/viewcontent/Localized_minimum_latency.pdf
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Institution: Singapore Management University
Language: English
Description
Summary:We address the problem of minimizing the worst-case broadcast delay in ldquomulti-radio multi-channel multi-rate wireless mesh networksrdquo (MR2-MC WMN) in a distributed and localized fashion. Efficient broadcasting in such networks is especially challenging due to the desirability of exploiting the ldquowireless broadcast advantagerdquo (WBA), the interface-diversity, the channel-diversity and the rate-diversity offered by these networks. We propose a framework that calculates a set of forwarding nodes and transmission rate at these forwarding nodes irrespective of the broadcast source. Thereafter, a forwarding tree is constructed taking into consideration the source of broadcast. Our broadcasting algorithms are distributed and utilize locally available information. We present a detailed performance evaluation of our distributed and localized algorithm and demonstrate that our algorithm can greatly improve broadcast performance by exploiting the rate, interface and channel diversity of MR2-MC WMNs and match the performance of centralized algorithms proposed in literature while utilizing only limited two-hop neighborhood information.

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