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浅海信道下的时间反转MFSK水声通信 被引量:3

Research of time reversal MFSK underwater acoustic communication in shallow-water channel
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摘要 MFSK(Multiple frequency shift keying)水声通信具有实现简单方便、性能稳健等优点,但在浅海信道较为严重的信道多径条件下其性能受到很大影响.虚拟时间反转镜(Virtual time reversal mirror,VTRM)可通过空间-时间聚焦有效抑制信道多径,已广泛应用于相干水声通信系统.提出将虚拟时间反转镜引入浅海信道MFSK水声通信中进行多通道时反处理抑制多径,并采用下变频处理有效降低了MFSK系统中时反处理的运算复杂度,同时通过对探针信号进行逐帧更新增强对信道时变的适应能力.浅海信道海试实验结果证实了本文方案的有效性. Multiple Frequency Shift Keying(MFSK)underwater acoustic communication has the advantages of simple, convenient and stable performance,but its performance is greatly affected by the channel multipath conditions in the shallow water channel.Virtual time reversal mirror(VTRM)can effectively suppress the channel multipath through space time focusing,which has been widely used in the coherent underwater acoustic communication system.In this paper,we introduced the virtual time reversal mirror in the shallow water channel MFSK underwater acoustic com-munication,and suppressed the multipath in multi channels.And the lower frequency conversion processing effectly reduced the computational complexity of the MFSK-VTRM system,and the adaptation ability of the probe signal was enhanced by the frame update.The sea trial experiment results in the shallow sea channel confirmed the validity of this scheme.
作者 曹秀岭 陈东升 童峰
机构地区 厦门大学水声通信与海洋信息技术教育部重点实验室
出处 《南京大学学报(自然科学版)》 CAS CSCD 北大核心 2015年第6期1189-1194,共6页 Journal of Nanjing University(Natural Science)
基金 国家自然科学基金(11274259) 福建省自然科学基金(2015J01172)
关键词 多径 下变频 虚拟时间反转 多进制数字频率调制 multipath down-conversion virtual time reversal multiple frequency shift keying
分类号 TP181 [自动化与计算机技术—控制理论与控制工程]
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参考文献19

  • 1Wu F Y,Li F L,Zhou Y H,etal. Dual-parameter adjustable least mean square algorithm for underwater acoustic channel equalization. Journal of Nanjing University (Natural Sciences), 2013, 49(1) :86-94.
  • 2Stojanovic M. Underwater acoustic communica- tions. Professional Program Proceedings. IEEE, 1995,435-440.
  • 3Coates R. Underwater acoustie communications. OCEANS' 93. Engineering in Harmony with Ocean. Proceedings, 1993,3 : 420 - 425.
  • 4Edelmann G F, Akal T, Hodgkiss W S, et al. Aninitial demonstration of underwater acoustic communication using time reversal. IEEE Journal of Oceanic Engineering, 2002,27 (3) : 602- 609.
  • 5Stojanovic M. Retrofocusing techniques for high rateacoustic communication. Journal of The Acoustical Society of America, 2005, 117 (3) : 1173-1185.
  • 6陆铭慧,张碧星,汪承灏.时间反转法在水下通信中的应用[J].声学学报,2005,30(4):349-354. 被引量:30
  • 7Rouseff D, Jackson D R, Fox W L J, et al. Underwater acoustic communication by passive- phase conjugation: theory and experimental results. IEEE Journal of Oceanic Engineering, 2001,26(4) :821-831.
  • 8Yang T C. Temporal resolutions of time-reversal andpassive-phase conjugation for underwater acousticcommunications. IEEE Journal of Oceanic Engineering, 2003,28 (2) : 229 - 245.
  • 9殷敬伟,惠娟,惠俊英,生雪莉,姚直象.无源时间反转镜在水声通信中的应用[J].声学学报,2007,32(4):362-368. 被引量:32
  • 10Hursky P,Porter M B,Siderius M. Point to poin tunderwater acoustic communications using spreadspectrum passive phase eonjugation. Journal of The Acoustical Society of America, 2006,120(1) :247-257.

二级参考文献38

  • 1温周斌,冯海泓,惠俊英.一种新的水声通信体制[J].声学学报,1993,18(5):345-351. 被引量:18
  • 2代光发,陈少平.快变衰落信道的Matlab仿真及其应用[J].系统仿真学报,2005,17(1):214-216. 被引量:12
  • 3陆铭慧,张碧星,汪承灏.时间反转法在水下通信中的应用[J].声学学报,2005,30(4):349-354. 被引量:30
  • 4YIN Jing-wei,HUI Jun-ying,WANG Yi-lin,YAO Zhi-xiang.Study on pattern time delay shift coding scheme[J].Journal of Marine Science and Application,2006,5(3):51-56. 被引量:1
  • 5布列霍夫斯基赫 杨训仁译.分层介质中的波[M].北京:科学出版社,1960.43-57.
  • 6魏炜.超声时间反转法自适应聚焦和目标探测.中国科学院声学研究所博士论文[M].-,1999..
  • 7D.B.Kilfoyle, J.C.Preisig, A.B.Baggeroer. Spatial Modulation Experiments in The Underwater Acoustic Channel. IEEE J. Ocean. Eng., 2005, 30(2): 406-415.
  • 8GF.Edelmarm, H.C.Song, S.Kim, et. al. Underwater Acoustic Communications Using Time Reversal. IEEE J. Ocean. Eng., 2005, 30(4): 852-863.
  • 9H.C.Song, P.Roux, W.S.Hodgkiss, et. al.. Multiple- Input- Multiple-Output Coherent Time Reversal Communications in a Shallow-Water Acoustic Channel. IEEE J. Ocean. Eng., 2006, 31(1): 170-178.
  • 10T.C.Yang. Correlation-based decision-feedback equalizer for underwater acoustic Communications. IEEE J. Ocean. Eng., 2005, 30(4): 865-880.

共引文献91

同被引文献18

引证文献3

二级引证文献6

南京大学学报(自然科学版)
2015年 第6期

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