Title :
Distributed cognitive radio systems with temperature-interference constraints and overlay scheme
Author :
Zazo, Javier ; Zazo, S. ; Valcarcel Macua, S.
Author_Institution :
ETSI de Telecomun., Univ. Politec. de Madrid, Madrid, Spain
Abstract :
Cognitive radio represents a promising paradigm to further increase transmission rates in wireless networks, as well as to facilitate the deployment of self-organized networks such as femtocells. Within this framework, secondary users (SU) may exploit the channel under the premise to maintain the quality of service (QoS) on primary users (PU) above a certain level. To achieve this goal, we present a noncooperative game where SU maximize their transmission rates, and may act as well as relays of the PU in order to hold their perceived QoS above the given threshold. In the paper, we analyze the properties of the game within the theory of variational inequalities, and provide an algorithm that converges to one Nash Equilibrium of the game. Finally, we present some simulations and compare the algorithm with another method that does not consider SU acting as relays.
Keywords :
cognitive radio; game theory; quality of service; radiofrequency interference; Nash equilibrium; PU relays; QoS; SU; distributed cognitive radio systems; femtocells; noncooperative game; overlay scheme; primary users; quality of service; secondary users; self-organized network deployment; temperature-interference constraints; transmission rate; transmission rate maximization; variational inequalities; wireless networks; Cognitive radio; Gain; Games; Interference; Jacobian matrices; Quality of service; Relays; Cognitive radio; game theory; self-organized networks; small cells; variational inequalities;
Conference_Titel :
Signal Processing Conference (EUSIPCO), 2014 Proceedings of the 22nd European
Conference_Location :
Lisbon
