Energy-efficient power allocation in cognitive sensor networks: A game theoretic approach

机译：认知传感器网络中的节能功率分配：一种博弈论方法

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In this paper, we study power allocation in cognitive sensor networks where cognitive users (cognitive enabled sensor nodes) opportunistically share a common spectrum with primary users (licensed devices). We define an energy efficiency-oriented utility function as a new metric to evaluate power allocation. Consider that sensor nodes are self-interested to maximize their own utility, we formulate the energy efficient power allocation problem as a non-cooperative game. We firstly prove that there exist Nash equilibriums in the proposed game. Secondly, we prove that the power allocation game is a supermodular game with some conditions. Finally, we use best response algorithm to identify the Nash equilibrium. Simulations are conducted to demonstrate that the proposed power allocation strategy can achieve satisfactory performance in terms of energy efficiency, convergence speed and fairness in cognitive sensor networks.

机译：在本文中，我们研究认知传感器网络中的功率分配，在认知传感器网络中，认知用户（认知启用的传感器节点）与主要用户（许可设备）机会性地共享一个共同的频谱。我们将面向能源效率的效用函数定义为评估功率分配的新指标。考虑到传感器节点是自私的，以最大化其自身的效用，因此我们将能效功率分配问题表述为非合作博弈。我们首先证明所提出的博弈中存在纳什均衡。其次，我们证明了功率分配博弈是具有一定条件的超模博弈。最后，我们使用最佳响应算法来识别纳什均衡。仿真表明，提出的功率分配策略可以在认知传感器网络的能效，收敛速度和公平性方面取得令人满意的性能。

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《GLOBECOM;IEEE Global Communications Conference;GC12 AHSN;Ad hoc and sensor networking symposium;GC12 CISS;Communication and information system security symposium;GC12 CogRN;Communication theory symposium;Cognitive radio and networks symposium;GC12 CT;Communications software, services and multimedia symposium;Communications QoS, reliability and modelling symposium;GC12 CSSM;Symposium on selected areas in communications;GC12 CQRM;Optical networks and systems symposium;GC12 SAC;Next generation networking and internet symposium;GC12 ONS;GC12 SAC;GC12 NGNI;GC12 WN;Wireless networking symposium;Wireless communications symposium》|2012年|p.416-421|共6页
会议地点 Anaheim CA(US)
作者
Bo Chai; Ruilong Deng; Peng Cheng; Jiming Chen;
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State Key Lab. of Industrial Control Technology Zhejiang University China;

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Energy efficiency; best response algorithm; cognitive radio; game theory; supermodular game;

机译：能源效率;最佳响应算法；认知无线电博弈论超模块化游戏;

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1. Energy-efficient power allocation in cognitive sensor networks: a coupled constraint game approach [J] . Chai Bo, Deng Ruilong, Shi Zhiguo, Wireless Networks . 2015,第5期

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2. A Game-Theoretic Approach to Energy-Efficient Power Control and Receiver Design in Cognitive CDMA Wireless Networks [J] . Buzzi S., Saturnino D. Selected Topics in Signal Processing, IEEE Journal of . 2011,第1期

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3. A game theoretic approach for power allocation with QoS constraints in wireless multimedia sensor networks [J] . Haixia Cui, Gang Wei, Qinghua Huang, Multimedia Tools and Applications . 2011,第3期

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4. Energy-efficient power allocation in cognitive sensor networks: A game theoretic approach [C] . Bo Chai, Ruilong Deng, Peng Cheng, IEEE Global Communications Conference;Ad Hoc and Sensor Nerworking Symposium;Communication and Information System Security Symposium;Cognitive Radio and Networks Symposium;Communications QoS, Reliability and Modelling Symposium;Communications Software, Services and Multimedia Symposium;Communication Theory Symposium;Next Generation Networking and Internet Symposium;Optical Networks and Systems Symposium;Symposium on Selected Areas in Communications;Signal Processing for Communications Symposium;Wireless Communications Symposium;Wireless Networking Symposium . 2012

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5. Spectrum monitoring in cognitive radio networks: A game-theoretical approach [D] . Li, Ming 2015

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6. Energy-Efficient Optimal Power Allocation in Integrated Wireless Sensor and Cognitive Satellite Terrestrial Networks [O] . Shengchao Shi, Guangxia Li, Kang An, 2017

机译：集成无线传感器和认知卫星地面网络中的节能最佳功率分配
7. Energy-Efficient Optimal Power Allocation in Integrated Wireless Sensor and Cognitive Satellite Terrestrial Networks [O] . Shengchao Shi, Guangxia Li, Kang An, 2017

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Energy-efficient power allocation in cognitive sensor networks: A game theoretic approach

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