Measurements and Evaluations for an IEEE 802.11a Based Carrier-Grade Multi-radio Wireless Mesh Network Deployment

Robitzsch, Sebastian; Niephaus, Christian; Fitzpatrick, John M.; Kretschmer, Mathias

doi:10.1109/icwmc.2009.52

Cited by 5 publications

(2 citation statements)

References 9 publications

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“…Building a test WMN required devices capable of supporting multiple wireless interfaces simultaneously. To avoid interference issues between the wireless interfaces of a single device, we decided to stack similar devices and have them act as a single multi‐interface one. Cable‐based connections and routing enabled physical emulation of a single node.…”

Section: Experimental Evaluationmentioning

confidence: 99%

Enabling autonomicity in wireless mesh networks with the ETSI AFI GANA reference model

et al. 2017

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Summary The distributed nature of wireless mesh networks (WMNs) allows them to benefit from multiple autonomic functionalities. However, the existing landscape of self‐x solutions (eg, self‐configuration) is fragmented and the lack of a standardized framework through which interoperable autonomics can be developed has been hampering adoption and deployment of autonomics in real‐world service networks. There is a need for a standardized architectural framework that enables to comprehensively support and integrate interoperable components for autonomicity in WMNs. Such an architecture (autonomicity‐enabled wireless mesh architecture) is currently being standardized by the working group called Evolution of Management towards Autonomic Future Internet (AFI) in the European Telecommunications Standards Institute within the Network Technologies Technical Committee. The proposed autonomic wireless mesh architecture is an instantiation of the AFI GANA (Generic Autonomic Network Architecture) reference model, a standards‐based approach to autonomics. This paper complements and extends the early version of the architecture by further detailing the architectural principles and providing experimental and validation results. First, we provide a brief overview of the AFI GANA reference model and then show how each of its building blocks can be instantiated for WMNs. We evaluate the proposed architecture by implementing and testing the 4 basic self‐x functionalities defined by the GANA model. The provided guidelines can now help researchers and engineers build autonomicity‐enabled WMNs using a standardized framework that enables adoption and deployment of autonomics by industry, thereby enabling researchers and engineers to contribute to the further evolution of the standard in the European Telecommunications Standards Institute.

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Section: Experimental Evaluationmentioning

confidence: 99%

Enabling autonomicity in wireless mesh networks with the ETSI AFI GANA reference model

et al. 2017

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“…As of regulatory domain is concerned, IEEE 802.11a contains 11 to 13 non‐overlapping channels theoretically. The band radio leakage decreases the performance of network, which turns to affect the adjacent channel interference 1 . ACI occurs due to the wireless transceiver that use imperfect filters to attenuate out‐of‐channel radiation.…”

Section: Introductionmentioning

confidence: 99%

Enhance packet transmission using improved channel assignment in wireless mess network

Sathyasri

Ganesh

Senthilkumar

2019

Concurrency and Computation

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Summary An efficient technique called channel Assignment (CA) is used to exploit the multiple non‐overlapping channels that improves capacity and decreases intervention in the wireless mesh network. Although it can reduce total network interference, there may be certain design issues by which network performance can be unfair. For maximizing the usage of wireless LAN network spectrum in these environments, many studies have discovered how to use the complete spectrum while transferring the data via mesh network. The proposed paper elaborates about the Enhanced Traffic‐Aware Channel Assignment Protocol. This protocol helps the mesh nodes present in the large‐scale mesh networks to assign the channels.

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Practical considerations for channel assignment in wireless mesh networks

Dely

Castro

Soukhakian

et al. 2010

2010 IEEE Globecom Workshops

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Measurements and Evaluations for an IEEE 802.11a Based Carrier-Grade Multi-radio Wireless Mesh Network Deployment

Cited by 5 publications

References 9 publications

Enabling autonomicity in wireless mesh networks with the ETSI AFI GANA reference model

Enabling autonomicity in wireless mesh networks with the ETSI AFI GANA reference model

Enhance packet transmission using improved channel assignment in wireless mess network

Practical considerations for channel assignment in wireless mesh networks

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