期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

改进的被动时间反转阵处理水下通信 被引量:2

Improved passive time reversal array processing in underwater communication
下载PDF
导出
摘要 时间反转技术由于不受环境制约,能自适应实现信道多途压缩和对指定点的空间聚焦,降低多用户通信过程中的码间干扰和同道干扰,广泛应用在水声通信领域。利用垂直阵加权处理的方法,在被动时间反转的基础上增加了一抵消项,抑制其中一个用户在接收阵的接收幅度以达到对另一用户指定通信的目的。模拟仿真显示该方法比单独只用被动时间反转处理,误码率能降低一半。海上试验数据处理结果与模拟仿真基本一致。 Irrespective of environmental condition,time reversal approach can self-adaptively compress multi-path and selectively focus on a target,reduce inter-symbol interference(ISI) and co-channel interference(CI) of multi-user com-munications,so it is widely used in underwater acoustic communications.Based on the passive time reversal approach,an offset term is added to vertical receiving array processing,which can restrain one user’s receiving signal amplitude to achieve communication with another pointed one.The computer simulation shows that this method can reduce half of bit error rate(BER) as compared with only using time reversal processing.The sea-trial data analysis is generally con-sistent with the simulation.
作者 赵淑坤 马力 郭圣明
机构地区 中国科学院声学研究所水声环境重点实验室
出处 《声学技术》 CSCD 2010年第3期248-252,共5页 Technical Acoustics
关键词 被动时间反转 多用户水下通信 阵处理 passive time reversal multi-user underwater communication array processing
分类号 O427.9 [理学—声学]
  • 相关文献

参考文献7

  • 1Daniel Rouseff,Darrell R Jackson,Warren L J Fox,et al.Underwater acoustic communication by passive-phase conjugation:theory and experimental results[J].IEEE J.Ocean.Eng 2001,26(4):821-831.
  • 2Edelmann G F,Song H C,Kim S,et al.Underwater acoustic communications using time reversal[J].IEEE J.Ocean.Eng,2005,30(4):852-864.
  • 3Geoffrey F Edelmann,T Akal,William S Hodgkiss,et al.An initial demonstration of underwater acoustic communication using time reversal[J].IEEE J.Ocean.Eng,2002,27(3):602-609.
  • 4Yang T C.Temporal resolutions of time-reversal and passive-phase conjugation for underwater acoustic communications[J].IEEE J.Ocean.Eng,2003,28(2):229-245.
  • 5Song H C,Philippe Roux,Hodgkiss W S,et al.Multiple-Input-Multiple-Output coherent time reversal communications in a shallow-water acoustic channel[J].IEEE J.Ocean.Eng,2006,31(1):170-178.
  • 6张涵,孙炳文,郭圣明.浅海环境中的时间反转多用户水声通信[J].应用声学,2009,28(3):214-219. 被引量:5
  • 7郭国强,杨益新,孙超.浅海波导中时间反转处理增强信混比能力的仿真分析[J].声学技术,2007,26(5):826-829. 被引量:4

二级参考文献11

  • 1D.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.
  • 2GF.Edelmarm, H.C.Song, S.Kim, et. al. Underwater Acoustic Communications Using Time Reversal. IEEE J. Ocean. Eng., 2005, 30(4): 852-863.
  • 3H.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.
  • 4T.C.Yang. Correlation-based decision-feedback equalizer for underwater acoustic Communications. IEEE J. Ocean. Eng., 2005, 30(4): 865-880.
  • 5Fink M,Cassereau D.Time reversed Acoustics[J].Physics Today,1997,50(3):34-40.
  • 6Fink M.Time-reversal of ultrasonic fields-Part Ⅰ:basic principles[J].IEEE Trans Ultrason.Ferroelec.Freq.Contr.,1992,39(5):555-556.
  • 7WU F,Thomas J L,Fink M.Time-reversal of ultrasonic fields-Part Ⅱ:experimental results[J].IEEE Trans Ultrason.Ferroelec.Freq.Contr.,1992,39(5):567-578.
  • 8Cassereau D,Fink M.Time-reversal of ultrasonic fieldsPart Ⅲ:theory of the closed time-reversal cavity[J].IEEE Trans Ultrason.Ferroelec.Freq.Contr.,1992,39(5):579-591.
  • 9Kuperman W A,Hodgkiss W S,Song H C.Ptase conjugation in the ocean:Experimental demonstration of an acoustic time-reversal mirror[J].J.Acoust.Soc.Am.,1998,103(1):25-40.
  • 10Ellis D.A shallow-water normal-mode reverberation model[J].J.Acoust.Soc.Am.,1995,97(5):804-2814.

共引文献7

同被引文献22

  • 1孙琳,李海森,陈宝伟,么彬.时反法用于被动通信的研究[J].计算机应用,2007,27(6):1326-1329. 被引量:2
  • 2Kuperman W A, Hodgkiss W S, Song H C, Akal T, Ferla C, Jackson D R. Phase conjugation in the ocean: experimental demonstration of an acoustic time-reversal mirror[J]. Acoust. Soc. Am, 1998, 103(1): 25-40.
  • 3Jackson D R, Dowling D R. Phase conjugation in underwater acoustic[J]. Acoustic. Soc. Am, 1991, 89(1): 171-181.
  • 4FINK M. Time-reversed acoustics [ J ]. Scientific American Magazine, 1999, 281(5) : 91-97.
  • 5EDELMANN G, AKAL T, HODGKISS W, et al. An initial demonstration of underwater acoustic communications using time reversal mirror [ J ]. Oceanic Engineering, 2002, 27 (3) : 602-609.
  • 6EDELMANN G, SONG H, KIM S, et al. Underwater acous- tic communications using time reversal [ J ]. Oceanic Engi- neering, 2005, 30(4): 852-864.
  • 7SONG H, ROUX P, HODGKISS W, et al. Multiple-input- muhiple-output coherent time reversal communications in a shallow-water acoustic channel [ J ]. Oceanic Engineering, 2006, 31(1) : 170-178.
  • 8ROUSEFF D, JACKSON D, FOX W, et al. Underwater a- coustic communications by passive-phase conjugation: theo- ry and experimental results [ J ]. Oceanic Engineering, 2001, 26(4): 821-831.
  • 9夏梦璐,徐文,金婷婷,等.多用户被动时反通信实验研究[J].声学技术,2008,27(5):411-413.
  • 10SONG H C, KIM J S, HODGKISS W S,et al. High-rate muhiuser communications in shallow water [ J ]. Journal of the Acoustical Society of America, 2010, 125(5) : 2920- 2925.

引证文献2

二级引证文献6

声学技术
2010年 第3期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部