基于USRP2平台的高效NC-OFDM系统设计被引量：2

Design and Implementation of the NC-OFDM System Based on Cognitive Radio Platform

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摘要为了能将认知无线电的理论研究与实物研究较好地结合在一起,基于USRP2平台设计并实现了一个NC-OFDM认知无线电传输系统,给出了系统的软硬件设计详细流程和关键问题的解决方案,并针对NC-OFDM系统的特殊性提出了一种将传统算法和修剪算法相结合的快速有效的FFT自适应处理算法。软硬件仿真结果表明,本系统能够在USRP2平台上成功实现无线通信的数据传送与接收,提出的算法可以有效缩短数据处理时间,提升数据传输的鲁棒性,改善系统的整体性能。 In order to combine the theory study and material object research together properly,this paper designs and implements a NC-OFDM system of CR based on USRP2,and presents the flow path of both software and hardware in detail,meanwhile,it also presents the solution to the key problems.The paper introduces a fast and effective self-adaption algorithm based on traditional algorithm and Pruning algorithm.The software and hardware simulation results show that this system is available to implement the wireless communication based on the USRP2.And the proposed algorithm not only can reduce the time of dealing with data effectively,but also can improve the robust of data transmitting and enhance the performance of the whole system.

作者李孟达柏鹏彭卫东卢虎李飞李寰宇

机构地区空军工程大学理学院空军工程大学综合电子信息系统与电子对抗技术研究中心 [

出处《空军工程大学学报（自然科学版）》 CSCD 北大核心 2012年第2期65-69,共5页 Journal of Air Force Engineering University(Natural Science Edition)

基金国家自然科学基金资助项目(61174194) 航空科学基金资助项目(20090196004 20110196004) 陕西省重点实验室基金资助项目(200908A 201102Y02)

关键词认知无线电非连续正交频分复用(NC-OFDM) USRP2 FFT cognitive radio non-contiguous orthogonal frequency division multiplexing universal software radio peripheral 2 FFT

分类号 TN914.3 [电子电信—通信与信息系统]

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参考文献9

1Mitola JⅢ,Maguire G Q Jr.Cognitive radio:making software radios more personal[J].IEEE personal communications.1999,6(4):13-18.
2Haykin Cognitive radio:brain-empowered wireless communication[J].IEEE journal on selected areas in communications,2005,23(2):201-220.
3Rajbanshi Rakesh,Wyglinski Alexander M,Minden Gary J.An efficient implementation of NC-OFDM transceivers for cogni-tive radios[C]//International conference on cognitive radio oriented wireless networks and communications.Mykonos Island:IEEE press,2006:1-5.
4王寅贺,李彦,牛德智.基于冗余备份的协作感知数据传输方法研究[J].空军工程大学学报（自然科学版）,2010,11(6):38-41. 被引量：2
5Wylie-Green M.Dynamic spectrum sensing by multiband OFDM radio for interference mitigation[C]//2005 1 st IEEE inter-national symposium on new frontiers in dynamic spectrum access networks.[S.l.]:IEEE press,2005:619-625.
6Ahmad Ali Tabassam,Farhan Azmat Ali.Building software-defined radio in MATLAB simulink:a step towards cognitive ra-dios[C]//2011 UKSim 13th international conference on modelling and simulation.Cambridge:IEEE press,2011:492-497.
7Alves R G,Osorio P L,Swamy M N.General FFT pruning algorithm[C]//Proceedings of the 43rd IEEE midwest symposium oncircuits and systems.Lansing,MI:IEEE press,2000:1192-1195.
8Nikookar H,Lidsheim K S.Random phase updating algorithm for OFDM transmission with low PAPR[J].IEEE transactions onbroadcasting,2002,48(2):123-128.
9Van de Beek J J,Sandell M,Borjesson P O.ML estimation of time and frequency offset in OFDM system[J].IEEE tansactionson signal processing,1997,45(7):1800-1805.

二级参考文献9

1Mitola J,Maquire G J.Cognitive Radios:Making Software Radios More Personal[J].IEEE Personal Communications,1999,6(4):13-18.
2Cabric D,Mishra S M,Bordersen R W,et al.Implementation Issues in Spectrum for Sensing Cognitive Radios[J].Signals Systems and Computers Conference Record of the Thirty-eighth Asilomar Conference,2004,1:772-776.
3Haykin S.Cognitive Radio:Brain-empowered Wireless Communications[J].IEEE Journal on Selected Areas in Communications,2005,23(2):201-220.
4Simeone O,Gambini J.Cooperation and Cognitive Radio[C]//IEEE International Conference on Communication.Glasgon:IEEE Press,2007:6511-6515.
5LIANG Yingchang.Optimization for Cooperative Sensing in Cognitive Radio Network[C]//Wireless Communications and Networking Conference.Kowloon:IEEE Press,2007:27-32.
6MA Jun,ZHAO Guodong,LI YE.Soft Combination and Detection for Cooperative Spectrum Sensing in Cognitive Radio Networks[J].IEEE Transactions,2008,11(9):4502-4507.
7MA Jun,LI Ye.Soft Combination and Detection for Cooperative Sensing in Cognitive Radio Networks[J].Global Telecommunications Conference.Washington,DC:IEEE Press,2007:3139-3143.
8Shah R C,Rabaey J M.Energy Aware Routing for Low Energy Ad Hoc Sensor Networks[J].IEEE Wireless Communication and Networking Conference.[S.l.]:IEEE Press,2002:350-355.
9He T,Stankovic J.SPEED:A Stateless Protocol for Real-Time Communication in Sensor Networks[J].23rd International Conference on Distributed Computing Systems.[S.l.]:IEEE Press,2003:46-55.

共引文献1

1陈军超,张虹,董义兵,由凯.安全可靠多站接力测控自动化控制技术[J].指挥与控制学报,2019,5(2):135-140. 被引量：1

同被引文献16

1William Krenik, Anuj Batra. Cognitive radio tech- niques for wide area network[C]//Proc of the 42nd design automation conference. Anaheim, USA: [s. n] :2005:409-412.
2Mitola J. Cognitive radio: An integrated agent archi- tecture for software defined radio [D]. Stockholm Royal institute technology:2000.
3Lee Marion J. Wavelet domain communication system (WDCS): packet-based wavelet spectral estimation and rn-ary signaling[D]. Ohio: Air force institute technology, 2002.
4Dillard G M, Reuter M, Zeidler J, et al. Cyclic code shift keying: a low probability of intercept communi- cation technique[J]. IEEE transactions on aerospace and electronic system, 2003,39(3) : 786-798.
5Roberts M L. Initial acquisition performance of a transform domain communication system: modeling and simulation result[C]//ILCOM 2000. Los Angel- es :[s. n. ],2000:1119-1123.
6Chakravarthy D,Shaw A K,Temple M A,et al, Cog- nitive radio-an adaptive waveform with spectral sha- ring capability[J]. WCNC 2005,2005,17 : 724-729.
7Ettus research LLC homepage [EB/OL] . [2012-11- 19]. http://www, ettus, com.
8Wei Peng,Dan Lilin,Wang Jin.Performance Analysize of Joint Processing of Sidelobe Suppression and PAPR Reduction in NC-OFDM Systems[C]//Proceedings of the 6th IEEE International ICST Conference on Communications and Networking.Harbin,China:[s.n.],2011:108-113.
9Ghassemi A,Gulliver T A.PAPR Reduction in OFDM Based Cognitive Radio with Blockwises-ubcarrier Activation[C]//Proceedings of IEEE International Conference on Communications.Ottawa,Canada:IEEE Press,2012:5598-5602.
10Yang Lin,Hu Wujun,Soo Kwok-Kai,et al.Swapped SLM Scheme for Reducing PAPR of FDM Systems[J].Electronics Letters,2014,50(22):1608-1609.

引证文献2

1李奎,柏鹏,卢虎,李孟达,李明阳.基于USRP2的TDCS系统的设计与实现[J].空军工程大学学报（自然科学版）,2013,14(3):83-86.
2周东旭,贾月岭,郭建新,郑航.NC-OFDM中改进的子载波预留PAPR抑制算法[J].计算机工程,2015,41(10):10-13. 被引量：1

二级引证文献1

1王胜,张天骐,袁帅.基于循环自相关的NC-OFDM信号参数的盲估计[J].计算机应用研究,2019,36(5):1486-1489. 被引量：5

1李孟达,柏鹏,彭卫东,卢虎,李飞.基于认知无线电平台的NC-OFDM系统设计与实现[J].电子技术应用,2012,38(6):104-107. 被引量：2
2檀蕊莲.频谱感知技术在认知无线电中的应用[J].武警工程大学学报,2013(6):32-35.
3沈淑渭,谢岩,李孟达,卢虎.基于USRP2的TDCS系统设计与实现[J].航空兵器,2012,19(6):45-49.
4秦明峰,惠沈盈,范广伟.一种多路并行盲搜索的空时二维抗干扰算法[J].无线电工程,2016,46(5):29-32. 被引量：2
5龚宇,龚耀寰.多处理器自适应干扰抑制系统[J].系统工程与电子技术,1995,17(5):32-36.
6陈通海,李景春,郑娜,郝静.基于GNU Radio和USRP2的未知信号检测[J].无线电工程,2012,42(12):16-19. 被引量：11
7李佳珉,康桂华,高路.NC-OFDM系统性能的仿真分析[J].现代电子技术,2008,31(23):15-17. 被引量：3
8王艳杰,郑逢勋.扫描型红外成像系统成像方法分析[J].航空兵器,2013,20(1):51-53. 被引量：3
9李奎,柏鹏,卢虎,李孟达,李明阳.基于USRP2的TDCS系统的设计与实现[J].空军工程大学学报（自然科学版）,2013,14(3):83-86.
10汪沂.基于USRP2的Chirp扩频发射机实现[J].大众科技,2014,16(4):1-3.

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基于USRP2平台的高效NC-OFDM系统设计被引量：2

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基于USRP2平台的高效NC-OFDM系统设计 被引量：2

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基于USRP2平台的高效NC-OFDM系统设计被引量：2