Energy-Efficient Power Allocation in Cognitive Radio Systems With Imperfect Spectrum Sensing

This paper studies energy-efficient power allocation schemes for secondary users in sensing-based spectrum sharing cognitive radio systems. It is assumed that secondary users first perform channel sensing possibly with errors and then initiate data transmission with different power levels based on s...

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Bibliographic Details
Published in:IEEE journal on selected areas in communications 2016-12, Vol.34 (12), p.3466-3481
Main Authors: Ozcan, Gozde, Gursoy, M. Cenk, Tran, Nghi, Tang, Jian
Format: Article
Language:English
Subjects:
Cognitive radio
Data transmission
Detection
Dinkelbach’s method
Energy efficiency
Energy transmission
Fading channels
imperfect spectrum sensing
imperfect/perfect/statistical CSI
Interference
interference power constraint
Iterative methods
Links
Optimization
power allocation
probability of detection
probability of false alarm
Radio systems
Resource management
Sensors
Sustainable development
transmit power constraint
Wireless sensor networks
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Summary:This paper studies energy-efficient power allocation schemes for secondary users in sensing-based spectrum sharing cognitive radio systems. It is assumed that secondary users first perform channel sensing possibly with errors and then initiate data transmission with different power levels based on sensing decisions. In this setting, the optimization problem is to maximize energy efficiency (EE) subject to peak/average transmission power constraints and peak/average interference constraints. By exploiting the quasi-concave property of the EE maximization problem, the original problem is transformed into an equivalent parameterized concave problem, and an iterative power allocation algorithm based on Dinkelbach's method is proposed. The optimal power levels are identified in the presence of different levels of channel side information (CSI) regarding the transmission and interference links at the secondary transmitter, namely, perfect CSI of both transmission and interference links, perfect CSI of the transmission link, imperfect CSI of the interference link, imperfect CSI of both links, or only statistical CSI of both links. Through numerical results, the impact of sensing performance, different types of CSI availability, and transmit and interference power constraints on the EE of the secondary users is analyzed.
ISSN:0733-8716
1558-0008
DOI:10.1109/JSAC.2016.2621399