DocumentCode
3099514
Title
Game Theoretic Power Control under Rician Slow-Flat Fading Channels in Cognitive Radios Networks
Author
Alayesh, Mahmoud A. ; Ghani, Nasir
Author_Institution
ECE, Univ. of New Mexico, Albuquerque, NM, USA
fYear
2011
fDate
July 31 2011-Aug. 4 2011
Firstpage
1
Lastpage
6
Abstract
Power control is an important resource management concern in wireless cognitive radio networks. In particular, the transmit powers of base stations and handsets must be carefully adjusted to help reduce interference between users and also improve cell capacity. Indeed, large gains can be achieved by taking into account primary user´s behaviors and allowing secondary users to utilize the unused spectrum of idling primary users. Along these lines, this study presents a novel game-theoretic solution in which primary users are rewarded for sharing their spectrum with secondary users to help achieve energy-efficient transmission. Overall, this effort extends upon our earlier work on fast-flat fading channels by further analyzing Rician slow-flat- fading channels. In particular, the presentation derives a closed-form expression for the average utility function and also shows the existence and uniqueness of the Nash equilibrium. Detailed simulation results are then presented to verify performance of the game-theoretic formulation under realistic slow-flat fading channels, and the findings compared against those with the simpler additive white Gaussian noise channel model.
Keywords
AWGN channels; Rician channels; cellular radio; cognitive radio; game theory; radio spectrum management; radiofrequency interference; Nash equilibrium; Rician slow-flat- fading channel; additive white Gaussian noise channel model; base station; cell capacity; energy-efficient transmission; game theoretic power control; game-theoretic solution; handset; interference; resource management; spectrum sharing; user behavior; utility function; wireless cognitive radio network; AWGN channels; Fading; Games; Interference; Power control; Rician channels; Signal to noise ratio;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Communications and Networks (ICCCN), 2011 Proceedings of 20th International Conference on
Conference_Location
Maui, HI
ISSN
1095-2055
Print_ISBN
978-1-4577-0637-0
Type
conf
DOI
10.1109/ICCCN.2011.6005943
Filename
6005943
Link To Document