Adaptive energy-efficient resource allocation for cognitive wireless local area network over fiber

Cognitive wireless local area network over fiber (CWLANoF) has been considered as a promising architecture of the traditional infrastructure-based IEEE 802.11 WLANs. However, most of previous works focused on channel allocation, throughput improvement and collision avoidance, and the energy efficien...

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Bibliographic Details
Main Authors: Baokun Shan, Li, Xi, Ji, Hong, Li, Yi
Format: Conference Proceeding
Language:English
Subjects:
Acoustic and other telecommunication systems and equipment
Communication network design, planning and routing
Computer communications
Computer networks and techniques
General and management topics
General electrical engineering topics
Metallisation and interconnection technology
Multimedia
Multimedia communications
Optical fibre networks
Protocols
Radar equipment, systems and applications
Radio links and equipment
Ubiquitous and pervasive computing
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Summary:Cognitive wireless local area network over fiber (CWLANoF) has been considered as a promising architecture of the traditional infrastructure-based IEEE 802.11 WLANs. However, most of previous works focused on channel allocation, throughput improvement and collision avoidance, and the energy efficiency is largely ignored. In this paper, we study the energy efficient aspect of spectrum sharing and channel allocation in CWLANoF. Taking different parts of energy consumption during a frame into consideration, we formulate the radio resource management problem in CWLANoF as energy efficiency maximum problems and propose an adaptive resource allocation mechanism. This nonlinear 0-1 programming problem is very hard to solve. To overcome this difficulty, we choose artificial fish-swarm algorithm (AFSA) for solving it. Simulation results are presented to demonstrate energy efficiency can be improved significantly in the proposed scheme.
DOI:10.1049/ic.2013.0227