Cognitive Relaying with Frequency Incentive for Multiple Primary Users

This work is directed towards a symbiotic architecture called cognitive relaying with frequency incentive for multiple primary users (CRFI-M). The rationale of CRFI-M is that the primary users (PUs) of a cognitive radio (CR) network, with weak transmission links, seek cooperation from the secondary...

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Bibliographic Details
Published in:Wireless personal communications 2014, Vol.74 (1), p.167-187
Main Authors: Nadkar, Taskeen, Thumar, Vinay, Merchant, S. N., Desai, U. B.
Format: Article
Language:English
Subjects:
Access methods and protocols, osi model
Applied sciences
Architecture
Coding, codes
Communications Engineering
Computer Communication Networks
Computer science
control theory
systems
Computer systems and distributed systems. User interface
Engineering
Equipments and installations
Exact sciences and technology
Information, signal and communications theory
Mobile radiocommunication systems
Networks
Radiocommunications
Signal and communications theory
Signal,Image and Speech Processing
Software
Telecommunications
Telecommunications and information theory
Teleprocessing networks. Isdn
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Summary:This work is directed towards a symbiotic architecture called cognitive relaying with frequency incentive for multiple primary users (CRFI-M). The rationale of CRFI-M is that the primary users (PUs) of a cognitive radio (CR) network, with weak transmission links, seek cooperation from the secondary user (SU) nodes in their vicinity to achieve as much throughput as they can get from their direct links. In return they reward the SUs with incentive frequency bands for their own communication. Each PU has its own distinct bandwidth of operation; however, when relaying through the SU network it can also use the bandwidth of the other PUs to enhance its throughput. Furthermore, the incentive frequency bands may be offered as a complete band-set or interleaved bands. Cross-layer optimization problems are formulated for each of these variants of the CRFI-M paradigm in a multi-hop multi-channel SU network. The frequency incentive that should be awarded to the SUs by each PU is analyzed by means of a utility-based decision-making process, and its efficient utilization is proposed. To make the CRFI-M scheme practically realizable, a MAC scheduling protocol is described. Simulation results are furnished to demonstrate the proof of concept.
ISSN:0929-6212
1572-834X
DOI:10.1007/s11277-012-0952-4