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基于导频chirpZ变换的基带OFDM水声通信多普勒估计方法 被引量:5

An Efficient Doppler Estimation Method Based on Pilot Chirp Z Transformation for Base-Band OFDM Underwater Acoustic Communication
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摘要 在OFDM水声通信中,收发双方非匀速运动时,传统的多普勒估计方法误差较大。提出了一种基于导频chirp Z变换的基带OFDM水声通信多普勒估计方法。该方法针对OFDM水声通信中的基带传输特性,取低频端的子载波为导频信号,对每个OFDM符号进行Chirp Z变换估计其多普勒因子。该方法估计精度高,仿真结果表明相对运动速度小于20 m/s时,估计多普勒因子的误差小于3.6×10-6,较传统的时域相关法误差小2个数量级;初速度小于20 m/s、加速度小于1.4 m/s2时估计的多普勒因子与符号平均多普勒因子的误差均小于3.6×10-6;用线性插值方法对多普勒补偿,不同运动速度、加速度以及多径条件下的仿真性能,验证了变速运动时该方法对OFDM接收信号多普勒估计及补偿的有效性。 Aim.In OFDM(Orthogonal Frequency Division Multiplexing) underwater acoustic communication,when the transmitter and the receiver have a relative acceleration,the traditional Doppler shift estimation method has big error.Our efficient estimation method can,we believe,suppress greatly this error.Section 1 of the full paper deals with OFDM base-band transmission for underwater acoustic communication.Sections 2 and 3 select pilot frequency signals in accordance with the interpolation method explained in Fig.2.Us...
作者 申晓红 王海燕 白峻 周倩
机构地区 西北工业大学航海学院
出处 《西北工业大学学报》 EI CAS CSCD 北大核心 2009年第1期116-121,共6页 Journal of Northwestern Polytechnical University
基金 国家自然科学基金(60572098)资助
关键词 水声通信 OFDM 多普勒频移 chirpZ变换 orthogonal frequency division multiplexing Doppler shift chirp Z transformation underwater acoustic communication
分类号 TN929.3 [电子电信—通信与信息系统]
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参考文献6

  • 1Sharif B S,Neasham J,Hinton O R,Adams A E.A Computationally Efficient Doppler Compensation System for Und-erwater Acoustic Communications[].IEEE Journal of Oceanic Engineering.2000
  • 2Stojanovic Milica,Catipovic Josko A,PROAKIS J G,Fellow.Phase-coherent Digital Communications for Underwater Acoustic Channels[].IEEE Journal of Oceanic Engineering.1994
  • 3Mark Johnson,Lee Freitag,and Milica Stojanovic.Improved Doppler tracking and correction for underwater acoustic communications[].ICASSP’.1997
  • 4M B van Gijzen,P A van Walree.Shallow-water acoustic communication with high bit rate BPSK signals[].Oceans’.2000
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  • 6Salberg Arnt-borre,Swami A.Doppler and frequency-offset synchro-nization in Wideband OFDM[].IEEE Transaction on Wireless Com-munications.2005

同被引文献38

  • 1韩晶,黄建国,曹海旺.海洋信道仿真软件HJRAY及其在水声通信中的应用[J].系统仿真学报,2007,19(1):35-37. 被引量:10
  • 2郭业才,张艳萍.采用判决圆判决的双模式常模盲均衡算法[J].数据采集与处理,2007,22(3):278-281. 被引量:9
  • 3Denis B,Pierrot J B. Joint Distributed Synchronization and Positioning in UWB Ad Hoc Networks using TOA[J]. IEEE Transaction on Microwave Theory and Techniques, 2006,154(4 ):1896-1911.
  • 4Bianehi P, Loubaton P. On the Blind Equalization of Contin- uous Phase Modulated Signals Using the Constant Modulus Criterion [J]. IEEE Transactions on Signal Processing, 2007,55(3):1047-1061.
  • 5Error Rate Improverment in Underwater MIMO Communica- tions Using Sparse Partial Response Equalization [J ]. Jounal of Oceanic Engineering, 2009,34 (2): 181-200.
  • 6Singer A, Nelson J , Kozat S. Signal processing for underwater2009,47(1) :90-96.
  • 7Amini P, Chen R R, Farhang-Boroujeny B. Filterbank multicar-rier communications for underwater acoustic channels[J]. IEEE]ournal of Oceanic Engineering,2014.40(1) : 115 - 130.
  • 8Esmaiel H, Jiang D C. Review article: multicarrier communica-tion for underwater acoustic channel [J]. International Journalof Communications,Network and System Sciences , 2013(6) : 361-376.
  • 9Berger C R, Gomes J,Moura J M F. Sea-trial results for cyclic-prcfix OFDM with long symbol duration [C] // Proc. of theIEEE OCEANS Con ference ,2011 :1 - S.
  • 10Liao J L, Qiao G, Ma X F,et al. Time varying channel estima-tion with inter-carrier interference mitigation in underwaterOFDM system[C]//Proc. of IEEE OCEANS , 2014; 1-6.

引证文献5

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西北工业大学学报
2009年 第1期

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