Power control for cognitive radio networks: Axioms, algorithms, and analysis

Siamak Sorooshyari; Chee Wei Tan; Mung Chiang

doi:10.1109/TNET.2011.2169986

Power control for cognitive radio networks: Axioms, algorithms, and analysis

Siamak Sorooshyari, Chee Wei Tan, Mung Chiang

Department of Computer Science

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

42 Citations (Scopus)

Abstract

The deployment of cognitive radio networks enables efficient spectrum sharing and opportunistic spectrum access. It also presents new challenges to the classical problem of interference management in wireless networks. This paper develops an axiomatic framework for power allocation in cognitive radio networks based on four goals: QoS protection to primary users, opportunism to secondary users, admissibility to secondary users, and autonomous operation by individual users. Two additional goals, licensing and versatility, which are desirable rather than essential, are also presented. A general class of Duo Priority Class Power Control (DPCPC) policies that satisfy such goals is introduced. Through theoretical analysis and simulation, it is shown that a specific interference-aware power-control algorithm reaches such goals. © 2012 IEEE.

Original language	English
Article number	6062397
Pages (from-to)	878-891
Journal	IEEE/ACM Transactions on Networking
Volume	20
Issue number	3
DOIs	https://doi.org/10.1109/TNET.2011.2169986
Publication status	Published - Jun 2012

Research Keywords

Cognitive radio
distributed algorithms
dynamic spectrum access
power control

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10.1109/TNET.2011.2169986

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abstract = "The deployment of cognitive radio networks enables efficient spectrum sharing and opportunistic spectrum access. It also presents new challenges to the classical problem of interference management in wireless networks. This paper develops an axiomatic framework for power allocation in cognitive radio networks based on four goals: QoS protection to primary users, opportunism to secondary users, admissibility to secondary users, and autonomous operation by individual users. Two additional goals, licensing and versatility, which are desirable rather than essential, are also presented. A general class of Duo Priority Class Power Control (DPCPC) policies that satisfy such goals is introduced. Through theoretical analysis and simulation, it is shown that a specific interference-aware power-control algorithm reaches such goals. {\textcopyright} 2012 IEEE.",

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AU - Chiang, Mung

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AB - The deployment of cognitive radio networks enables efficient spectrum sharing and opportunistic spectrum access. It also presents new challenges to the classical problem of interference management in wireless networks. This paper develops an axiomatic framework for power allocation in cognitive radio networks based on four goals: QoS protection to primary users, opportunism to secondary users, admissibility to secondary users, and autonomous operation by individual users. Two additional goals, licensing and versatility, which are desirable rather than essential, are also presented. A general class of Duo Priority Class Power Control (DPCPC) policies that satisfy such goals is introduced. Through theoretical analysis and simulation, it is shown that a specific interference-aware power-control algorithm reaches such goals. © 2012 IEEE.

KW - Cognitive radio

KW - distributed algorithms

KW - dynamic spectrum access

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M3 - RGC 21 - Publication in refereed journal

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Power control for cognitive radio networks: Axioms, algorithms, and analysis

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