衰落环境下一种高能效协作频谱感知算法

A High Energy- Efficient Cooperative Spectrum Sensing Algorithm in Fading Environment

下载PDF

导出

摘要在认知无线网络中,对于电池供电的认知设备,如何高效地利用其能量资源极为重要。在将能量效率(能效)定义为认知网络频谱利用效率和平均功率消耗之比的基础上,提出了一种高能效优化算法,在加性高斯白噪声(AWGN)信道、Rayleigh衰落信道和Nakagami衰落信道条件下使融合中心门限达到最优,并求得了最佳的参与协作的用户数。通过蒙特卡洛仿真对认知网络的能效进行了性能评估,结果表明所提算法能有效提升认知网络的能量效率。 In CR （Cognitive Radio） networks and for battery-powered SUs （Secondary Users）, how to use energy resources efficiently is of great significance. In this paper, EE （Energy Efficiency） is defined as the ratio of spectrum utilization efficiency of CR network to average power consumption. A high energy-ef- ficient optimization algorithm is proposed, and the threshold in FC （Fusion Center） is optimal under the condition of AWGN （Additive White Gaussian Noise） channels, Rayleigh fading channels and Nakagami fading channels, with the optimal number of cooperating SUs derived. EE performance of CR network is e- valuated via Monte-Carlo simulation, and the results show that the proposed algorithm can effectively im- prove the energy efficiency of CR network.

作者关业文胡航张杭

机构地区解放军理工大学通信工程学院

出处《通信技术》 2015年第4期435-440,共6页 Communications Technology

关键词认知无线网络高能效协作频谱感知衰落环境 cognitive radio energy-efficient cooperative spectrum sensing fading environment

分类号 TN924.1 [电子电信—通信与信息系统]

引文网络
相关文献

参考文献11

1ZHAO N, YU F R, Sun H,et al. Energy-Efficient Coop- erative Spectrum Sensing Schemes for Cognitive Radio Networks [ J ]. Eurasip Journal on Wireless Communica- tions and Networking, 2013, 1-13.
2Wang Y, Feng C, Zeng Z, et al. A Robust and Energy Efficient Cooperative Spectrum Sensing Scheme in Cogni- tive Radio Networks [ C ] //IEEE Int. Conf. Adv. Com- mtm. Technol. , Feb. 2009, 640-645.
3Lee C H, Wolf W. Energy Efficient Techniques for Coop- erative Spectrum Sensing in Cognitive Radios [ C ] // IEEE Consumer Commun. Netw. Conf. (CCNC) , Jan. 2008, 968-972.
4Shi Z, The K C, Li K H. Energy-Efficient Joint Design of Sensing and Transmission Durations for Protection of Primary User in Cognitive Radio Systems [ J ]. IEEE Comm. Lett. , 2013, 17(3) : 565-568.
5Wu Y, Tsang D H K. Energy-Efficient Spectrum Sensing and Transmission for Cognitive Radio System [ J ]. IEEE Comm. Lett. , 2011, 15(5) : 545-547.
6兰昆伟,赵杭生,李湘洋,罗梦麟.认知无线电中基于感知门限的频谱预测研究[J].通信技术,2015,48(2):165-170. 被引量：7
7Chung W, Park S, Lim S, et al. Spectrum Sensing Opti- mization for Energy-Harvesting Cognitive Radio Systems [ J ]. IEEE Transactions on Wireless Communications, 2014, 13(5) : 2601-2613.
8Digham F F, Alouini M S, Simon M K. On the Energy Detection of Unknown Signals over Fading Channels [ J ]. IEEE Transactions on Communications, 2007, 55 ( 1 ) : 21-24.
9Shen J, Jiang T, Liu S, et al. Maximum Channel Throughput via Cooperative Spectrum Sensing in Cogni- tive Radio Networks [ J ]. IEEE Transactions on Wire- less Communications, 2009, 8(10): 5166-5175.
10Park S, Hong D. Achievable Throughput of Energy Har- vesting Cognitive Radio Networks [ J]. IEEE Transactions on Wireless Communications ,2014,13 (2) : 1010-1022.

二级参考文献11

1Akyildiz I F, I>ee W Y, Vuran M C, et al. NeXt Genera-tion Dynamic Spectrum Access/Cognitive Radio WirelessNetworks: A Survey[ J ]. Computer Networks, 2006, 50(13): 2127-2159.
2Mitola J,Maguire G. Cognitive Radio: Making SoftwareRadios More Personal [ J ]. IEEE Personal Commun,1999, 6(4) ; 12-18.
3Tovfik Y, Arslan H. A Survey of Spectrum Sensing Algo-rithms for Cognitive Radio Applications, IEEE Communi-(*ations surveys & tutorials, 2009( 1 ) : 116—130.
4Lin Y E, Liu K H, Hsieh H Y. On Using Interference-aware Spectrum Sensing for Dynamic Spectrum Access inCognitive Radio Networks[ J ]. Mobile Computing, IEEETransactions on, 2013 ,12 (3 ) :461-474.
5Xing X,Jing T, Chen W,et al. Spectrum Prediction inCognitive Radio Networks [ J ]. Wireless Communications,IEEE, 2013,20(2) :90-96.
6Yarkan S, Arsla H. Binary Time Series Approach toSpectrum Prediction for Cognitive Radio[ C]//VehicularTechnology Conference 2007. 2007 IEEE 66th. IEEE,2007:1563-1567.
7Tumuluru V K, Wang P, Niyato D. A Neural Networkbased Spectrum Prediction Scheme for Cognitive Radio[C ] //Communications ( ICC ) , 2010 IEEE InternationalConference on. IEEE, 2010:1-5.
8LI Y, DONG Y,ZHAING II, et al. Spectrum Usage Pre-diction based on High-order Markov Model for CognitiveRadio Networks[C]//Computer and Information Technol-ogy ( CIT),2010 IEEE 10th International Conference on.IEEE, 2010:2784-2788.
9HUANG P, UU C J, XIAO L, et al. Wireless SpectrumOccupancy Prediction based on Partial Periodic Mining[C ]//Modeling Analysis&Simulation of Computer andTelecommunication Systems ( MASCOTS ) , 2012 IEEE20lh International Symposium on. IKEE,2012:51-58.
10YUAN G,Grammenos K C,Yang Y, et al. Perform-ance Analysis of Selective Opportunistic Access withTraffic Prediction [ J ]. Vehicular Technology, IEEETransactions on. 2010,59(4) : 1949-1959.

共引文献6

1唐菁敏,曹操,张晓颍,马社方.最大化能量效率的协作频谱感知优化算法[J].通信技术,2015,48(8):934-939.
2曹玉凡,沈越泓,袁志钢.线性卷积信道混合模型下WSDM的解决方法[J].通信技术,2015,48(12):1329-1333. 被引量：2
3廖云峰,陈勇,聂勇,鲍丽娜.一种基于Stackelberg博弈的动态频谱接入策略[J].通信技术,2016,49(2):168-173.
4廖云峰,陈勇,田家强,鲍丽娜.基于频谱数据库的分布式动态频谱接入算法[J].通信技术,2016,49(4):426-430. 被引量：2
5彭艺,常虹,彭璟云.基于区块链的安全频谱感知技术研究[J].软件导刊,2018,17(1):202-204.
6吴建伟,李艳玲,臧翰林.基于改进帧结构的认知网络吞吐量优化方法[J].计算机工程,2018,44(6):45-49. 被引量：2

1郭新军,张鏖峰,申东娅.Nakagami衰落信道的仿真方法研究[J].通信技术,2009,42(6):11-13. 被引量：1
2谢俊松,范平志,DARNELL Mike.MQAM和MPSK在Nakagami衰落信道中的BER性能(英文)[J].电路与系统学报,2004,9(1):104-107.
3吴军力,侯晓林,尹长川,乐光新.Nakagami衰落信道下AM-SR-ARQ系统的性能分析[J].北京邮电大学学报,2004,27(3):108-112. 被引量：1
4冯光焰,葛勇.空时码在Nakagami衰落信道下性能分析[J].无线电工程,2007,37(6):20-22.
5耿晓娜,李光球.Nakagami衰落上空时分组码的香农容量[J].杭州电子科技大学学报（自然科学版）,2010,30(5):57-60.
6朱秋明,吕卫华,黄嘉乐,徐大专,陈小敏,唐亚平.基于Nakagami衰落的分集合并系统性能分析[J].南京航空航天大学学报,2013,45(3):424-428. 被引量：4
7杨丽,肖丽萍.空时分组码在Nakagami衰落下的信道容量[J].无线电工程,2005,35(11):11-13. 被引量：1
8周少山,申东娅,石巍,崔燕妮.Nakagami衰落信道下正交空时分组码的容量分析[J].云南大学学报（自然科学版）,2008,30(5):454-459.
9邹丽,张士兵,吉晓东.衰落信道下能量检测的性能分析[J].重庆邮电大学学报（自然科学版）,2011,23(3):288-293.
10朱秋明,徐大专,王成华,陈超.Nakagami衰落包络的空时频相关性研究[J].宇航学报,2012,33(1):134-139. 被引量：1

通信技术

2015年第4期

浏览历史

内容加载中请稍等...

衰落环境下一种高能效协作频谱感知算法

参考文献11

二级参考文献11

共引文献6

相关作者

相关机构

相关主题

浏览历史