关键点显示，如发送机的最终输出，准备送给AD9361的中频信                                           Statistics in the Context of Cognitive Radio[C]//2011
号；接收机最终的输出，解析到的发送数据。                                                     the 14th International Symposium on Wireless Personal
                                                                         Multimedia Communications(WPMC).Brest:IEEE,2011:1-5.
      硬件仿真结果如图11所示，集成逻辑分析仪的知识产权                                   [6] DEKKER H,VAN DEN ENDE B,GELEVERT H,et al.Spectrum
核抓取到了QPSK调制后的同相路数据和扩频调制后的同相路数                                            Availability for Next Generation Satellite
据；同时还有接收机的最终输出，解析到的以1递增的发送数                                              Services:Coexistence with Terrestrial Mobile
据。                                                                       Services[C]//Personal Satellite Services:4th
 图11 硬件仿真结果                                                              International ICST Conference.Bradford :PSATS,2012:44-52.
                                                                  [7] GHOSH C,ROY S,CAVALCANTI D.Coexistence Challenges for
    结束语                                                                  Heterogeneous Cognitive Wireless Networks in TV White
                                                                         Spaces[J].IEEE Wireless Communications,2011,18(4):22-31.
      本文介绍了特征序列扩频通信链路的 FPGA实现。介绍了扩                                [8] MILAS V F,CONSTANTINOU P.Interference Environment Between
频序列设计原理、通信链路的基本组成、软件功能仿真测试、                                              High Altitude Platform Networks(HAPN),Geostationary(GEO)
硬件调试过程，结果表明系统可以顺利完成对信息的扩频发                                               Satellite and Wireless Terrestrial Systems[J].Wireless
送，且接收端解扩出来的数据正确，满足设计的要求。该设计                                              Personal Communications,2005,32(3-4):257-274.
的性能与结论有助于实现现代卫星QPSK通信中业务数据实现小                                     [9] MITOLA J,MAGUIRE G Q.Cognitive Radio:Making
SNR和低BER传输。                                                              Software Radios more Personal[J].IEEE Personal
                                                                         Communications,1999,6(4):13-18.
参考文献                                                              [10] MITOLA J.Cognitive Radio for Flexible Mobile Multimedia
                                                                         Communications[C]//1999 IEEE International Workshop
 [1] SHARMA S K,CHATZINOTAS S,OTTERSTEN B.Satellite                      on Mobile Multimedia Communications(MoMuC’99)(Cat.
        Cognitive Communications:Interference Modeling and               No.99EX384).San Diego:IEEE,1999:3-10.
        Techniques Selection[C]//2012 6th Advanced Satellite      [11] MITOLA J.Cognitive Radio:An Integrated Agent Architecture
        Multimedia Systems Conference(ASMS)and 12th Signal               for Software Defined Radio[D].Stockholm :Royal Inst
        Processing for Space Communications Workshop(SPSC).              Technol(KTH),2000.
        Vigo:IEEE,2012:111-118.                                   [12] STAPLE G,WERBACH K.The End of Spectrum Scarcity
                                                                         [Spectrum Allocation and Utilization][J].IEEE
 [2] SHARMA S K,CHATZINOTAS S,OTTERSTEN B.Transmit                       Spectrum,2004,41(3):48-52.
        Beamforming for Spectral Coexistence of Satellite and     [13] 顾娜，匡麟玲，陆建华.基于特征扩频的卫星转发器频谱资源聚
        Terrestrial Networks[C]//8th International Conference on         合研究[J].通信学报，2014,35(10):1-8.
        Cognitive Radio Oriented Wireless Networks.Washington     [14] GU N,KUANG L L,CHEN X,et al.An Eigen-based Spreading
        D.C.:IEEE,2013:275-281.                                          Sequences Design Framework for CDMA Satellite
                                                                         Systems[C]//2014 IEEE 79th Vehicular Technology
 [3] OETTING J D,JEN T.The Mobile User Objective System[J].              Conference(VTC Spring).Seoul:IEEE,2014:1-6.
        Johns Hopkins APL Technical Digest,2011,30(2):103-112.    [15] 丁峰，马忠松.直接序列扩频系统解扩模块FPGA实现[J].电子测
                                                                         量技术，2009,32(4):104-107.
 [4] PATIL K,PRASAD R,SKOUBY K.A Survey of Worldwide              [16] 张阿宁，高冲霄.基于FPGA的数字扩频接收机的设计与实现[J].
        Spectrum Occupancy Measurement Campaigns for Cognitive           电脑知识与技术，2015,11(3):252-254.
        Radio[C]//2011 International Conference on Devices and    [17] 陈志强.基于FPGA的直接序列扩频接收机设计[D].廊坊：北华航
        Communications(ICDeCom).Mesra:IEEE,2011:1-5.                     天工业学院，2018.
                                                                  [18] 郭俊磊.QPSK扩频接收机的研究及FPGA的实现[D].哈尔滨：黑龙
 [5] PATIL K,SKOUBY K,CHANDRA A,et al.Spectrum Occupancy                 江大学，2019.
                                                                  [19] 张航.基于QPSK调制的扩频通信技术及其FPGA实现[D].哈尔滨：
                                                                         哈尔滨工业大学，2020.
                                                                  [20] 张芷萱.基于FPGA的语音信号扩频通信系统设计[D].西安：西安
                                                                         石油大学，2022.

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