An Efficient and Unbiased Power Control Algorithm Based on Game Theory in Cognitive Radio

Based on the non-cooperative power control game theory, we propose an efficient and unbiased power control algorithm in cognitive radio network (CRN) by improving the utility function. Without causing interference to the primary users (PUs), this effective utility function balances the fairness and system throughput of secondary users (SUs) via a fair pricing function. The pricing punishment parameter setting depends on the quality of received signal to guarantee the quality of service (QoS) requirement of the SUs. In addition, we prove that the proposed game model has ‘Nash equilibrium point (NE)’ by supermodular game theory and we give the iterative algorithm for the proposed game to attain the optimal power for all SUs. Simulation results show that the proposed game not only enhances the system throughput, reduces transmission power of SUs, and maximizes the global utility, but also takes the system fairness into account to some extent, which differs from other previous schemes.

[1]  Xinbing Wang,et al.  Pricing for Uplink Power Control in Cognitive Radio Networks , 2010, IEEE Transactions on Vehicular Technology.

[2]  Baltasar Beferull-Lozano,et al.  Quasi-Nash Equilibria for Non-Convex Distributed Power Allocation Games in Cognitive Radios , 2013, IEEE Transactions on Wireless Communications.

[3]  Reza Saadat,et al.  Coalition-Based Approaches for Joint Power Control and Relay Selection in Cooperative Networks , 2013, IEEE Transactions on Vehicular Technology.

[4]  Stefano Buzzi,et al.  A Game-Theoretic Approach to Energy-Efficient Power Control and Receiver Design in Cognitive CDMA Wireless Networks , 2011, IEEE Journal of Selected Topics in Signal Processing.

[5]  Dong Wang,et al.  Security Spectrum Auction Framework for Cognitive Radio Networks , 2013, J. Comput..

[6]  Cem U. Saraydar,et al.  Efficient power control via pricing in wireless data networks , 2002, IEEE Trans. Commun..

[7]  Symeon Papavassiliou,et al.  Distributed Uplink Power Control in Multiservice Wireless Networks via a Game Theoretic Approach with Convex Pricing , 2012, IEEE Transactions on Parallel and Distributed Systems.

[8]  Rosdiadee Nordin,et al.  Application of game theory to underlay ad-hoc cognitive radio networks: An overview , 2013, 2013 IEEE International Conference on Space Science and Communication (IconSpace).

[9]  Ness B. Shroff,et al.  A utility-based power-control scheme in wireless cellular systems , 2003, TNET.

[10]  K. J. Ray Liu,et al.  Game theory for cognitive radio networks: An overview , 2010, Comput. Networks.

[11]  Qingsheng Zhu,et al.  Credit-based Repeated Game Model Applied in Transfer Decision of Opportunistic Network , 2011, J. Softw..

[12]  Yuan Wu,et al.  Joint Pricing and Power Allocation for Dynamic Spectrum Access Networks with Stackelberg Game Model , 2011, IEEE Transactions on Wireless Communications.

[13]  Yusun Chang,et al.  Reinforcement Learning for Repeated Power Control Game in Cognitive Radio Networks , 2012, IEEE Journal on Selected Areas in Communications.

[14]  Chen He,et al.  A Novel Price-Based Power Control Algorithm in Cognitive Radio Networks , 2013, IEEE Communications Letters.

[15]  Mingchu Li,et al.  A Game Theoretic Resource Allocation Model Based on Extended Second Price Sealed Auction in Grid Computing , 2012, J. Comput..

[16]  Yuhui Shi,et al.  Power control algorithm in cognitive radio system based on modified Shuffled Frog Leaping Algorithm , 2012 .

[17]  Jian Chen,et al.  Efficient swarm intelligent algorithm for power control game in cognitive radio networks , 2013, IET Commun..

[18]  David J. Goodman,et al.  Power control for wireless data , 2000, IEEE Wirel. Commun..

[19]  Geoffrey Ye Li,et al.  Cognitive radio networking and communications: an overview , 2011, IEEE Transactions on Vehicular Technology.

[20]  Sheng Liu,et al.  Power Control Game Algorithm Based on Combination Pricing Function , 2011, 2011IEEE 10th International Conference on Trust, Security and Privacy in Computing and Communications.

[21]  Shaolei Ren,et al.  Pricing and Distributed Power Control in Wireless Relay Networks , 2011, IEEE Transactions on Signal Processing.