Exploring multiple radios and multiple channels in wireless mesh networks [Accepted from Open Call (original) (raw)

Optimized Group Channel Assignment Using Computational Geometry over Wireless Mesh Networks

Mob. Inf. Syst., 2015

Wireless Mesh Networks (WMNs) are an evolving division in the field of wireless networks due to their ease of deployment and assured last mile connectivity. It sets out a favorable situation to guarantee the Internet connectivity to all the mobile and static nodes. A wireless environment is dynamic, heterogeneous, and unpredictable as the nodes communicate through the unguided links called channels. The number of nonoverlapping channels available is less than the number of mesh nodes; hence, the same channel will be shared among many nodes. This scarcity of the channels causes interference and degrades the performance of the network. In this paper, we have presented a group based channel assignment method to minimize the interference. We have formulated a mathematical model using Nonlinear Programming (NLP). The objective function defines the channel assignment strategy which eventually reduces the interference. We have adapted the cognitive model of Discrete Particle Swarm Optimiza...

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Channel Assignment Techniques for Multi-Radio Wireless Mesh Networks: A Survey Cover Page

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Routing, Interface Assignment and Related Cross-layer Issues in Multiradio Wireless Mesh Networks Cover Page

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A Traffic-Aware Channel and Rate Reassignment Algorithm for Wireless Mesh Networks Cover Page

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Distributed optimal congestion control and channel assignment in wireless mesh networks Cover Page

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Channel Assignment Strategies for Multiradio Wireless Mesh Networks: Issues and Solutions Cover Page

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Medium Access Control in Wireless Mesh Networks Cover Page

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Minimum Interference Channel Assignment in Multi-Radio Wireless Mesh Networks Cover Page

WING/WORLD: An Open Experimental Toolkit for the Design and Deployment of IEEE 802.11-Based Wireless Mesh Networks Testbeds

Wireless Mesh Networks represent an interesting instance of light-infrastructure wireless networks. Due to their flexibility and resiliency to network failures, wireless mesh networks are particularly suitable for incremental and rapid deployments of wireless access networks in both metropolitan and rural areas. This paper illustrates the design and development of an open toolkit aimed at supporting the design of different solutions for wireless mesh networking by enabling real evaluation, validation, and demonstration. The resulting testbed is based on off-the-shelf hardware components and open-source software and is focused on IEEE 802.11 commodity devices. The software toolkit is based on an “open” philosophy and aims at providing the scientific community with a tool for effective and reproducible performance analysis of WMNs. The paper describes the architecture of the toolkit, and its core functionalities, as well as its potential evolutions.

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WING/WORLD: An Open Experimental Toolkit for the Design and Deployment of IEEE 802.11-Based Wireless Mesh Networks Testbeds Cover Page

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A dynamic channel assignment method for multichannel multiradio wireless mesh networks Cover Page