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二进制偏移载波调制的零相关窗水声同步技术研究

孙宗鑫 于洋 周锋 刘凇佐 乔钢

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二进制偏移载波调制的零相关窗水声同步技术研究

孙宗鑫, 于洋, 周锋, 刘凇佐, 乔钢

Underwater acoustic synchronization telemetry research based on binary offset carrier modulated signal with zero correlation window

Sun Zong-Xin, Yu Yang, Zhou Feng, Liu Song-Zuo, Qiao Gang
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  • 针对线性调频信号同步相关的旁瓣、m序列扩频同步的序列自噪声和二进制相移键控调制信号在主瓣周围一个码片范围内存在较强烈的旁瓣三个问题,提出了一种基于二进制偏移载波(BOC)调制信号的无干扰窗水声同步方式. 利用互补序列的非周期自相关函数之和为零的特殊性质,实现了在主瓣周围一个码片范围外,零相关窗范围内的无干扰窗. 使用BOC(1,1)方式对信号进行亚载波调制,以减少主瓣周围一个码片范围内的旁瓣. 对单通道信号和双通道信号的零相关窗形式都进行了设计,通过仿真和实验验证了BOC零相关窗方法在水声系统的同步、信道测量和估计中的有效性.
    Aiming at the problem that synchronized correlation of linear frequency synchronization of m sequence possesses self noise and there are strong side lobes in a code range besides main lobe, in this paper we propose a new underwater acoustic synchronization scheme based on binary offset carrier (BOC) modulated signal with no interference windows which employs the property that the sum of aperiodic auto correlation function is 0 to realize no interference window between the range of one code and zero inference window and utilizes BOC (1, 1) to modulate signal with sub-carrier to mitigate side lobes in one code range besides main lobe. The schemes are designed for both single and couple channel signal, and the validity of underwater acoustic synchronization, channel measurement and estimation are testified through simulation and experiments.
    • 基金项目: 国家高技术研究发展计划(批准号:2009AA093601-2)、国防基础科学研究计划(批准号:B2420110007)、水声技术重点实验室基金(批准号:9140C200801110C2004)和国家自然科学基金(批准号:11304056)资助的课题.
    • Funds: Project supported by the National High Technology Research and Development Program of China (Grant No. 2009AA093601-2), the National Defense Basic Scientific Research Program of China (Grant No. B2420110007), the Foundation of Science and Technology on Underwater Acoustic Laboratory, China (Grant No. 9140C200801110C2004), and the National Natural Science Foundation of China (Grant No. 11304056).
    [1]

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    Kilfoyle D B, Baggerroer A B 2000 IEEE J. Ocean Eng. 25 1

    [3]

    Yu Y, Zhou F, Qiao G 2012 Acta Phys. Sin. 61 234301 (in Chinese) [于洋, 周锋, 乔钢 2012 物理学报 61 234301]

    [4]

    He C B, Huang J G, Han J, Zhang Q F 2009 Acta Phys. Sin. 58 8379 (in Chinese) [何成兵, 黄建国, 韩晶, 张群飞 2009 物理学报 58 8379]

    [5]

    Yin J W, Hui J Y, Wang Y L, Hui J 2007 Acta Phys. Sin. 56 5915 (in Chinese) [殷敬伟, 惠俊英, 王逸林, 慧娟 2007 物理学报 56 5915]

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    Wang N, Liu J Z 2002 Chin. Phys. 11 456

    [7]

    Duan R, Yang K D, Ma Y L, Lei B 2012 Chin. Phys. B 21 124301

    [8]

    Sarwate D S 1979 IEEE Trans. Inform. Theory 25 720

    [9]

    Welch L R 1974 IEEE Trans. Inform. Theory 20 397

    [10]

    Levenshtein V I 1996 Proceedings of IEEE 4th International Symposium On Spread Spectrum Techniques and Applications (Vol. 2) (Mainz: IEEE) p657

    [11]

    Stanczak S, Boche H, Haardt M 2001 Proceedings of IEEE Global Communications Conference (Vol. 1) (San Antonic: IEEE) p589

    [12]

    Pott A, Bradley S P 1995 IEEE Trans. Inform. Theory 41 301

    [13]

    Wolfmann J 1992 IEEE Trans. Inform. Theory 38 1412

    [14]

    Popvia B M 1995 IEEE Electron. Lett. 31 944

    [15]

    Fishman P A, Betz J W 2000 Proceedings of the Institute of Navigation's National Technical Meeting Anaheim, USA, January 26-28, 2000 p574

    [16]

    Giugno L, Luise M 2005 13th European Signal Processing Conference Antalya, Turkey, September 4-8, 2005 p760

    [17]

    Zanier F, Bacci G, Luise M 2009 Proc. IEEE 3 748

    [18]

    Betz J W 1999 Proceedings of ION National Technical Meeting San Diego, USA, January 25-27, 1999 p639

    [19]

    Moeneclaey M 1983 IEEE Trans. Commun. 31 1029

    [20]

    Andrea A N D, Mengali U, Reggiannini R 1994 IEEE Trans. Commun. 42 1391

    [21]

    Golay M J E 1961 IEEE Trans. Inform. Theory 7 644

  • [1]

    Stojanovic M, Preisig J 2009 IEEE Commun. Mag. 47 84

    [2]

    Kilfoyle D B, Baggerroer A B 2000 IEEE J. Ocean Eng. 25 1

    [3]

    Yu Y, Zhou F, Qiao G 2012 Acta Phys. Sin. 61 234301 (in Chinese) [于洋, 周锋, 乔钢 2012 物理学报 61 234301]

    [4]

    He C B, Huang J G, Han J, Zhang Q F 2009 Acta Phys. Sin. 58 8379 (in Chinese) [何成兵, 黄建国, 韩晶, 张群飞 2009 物理学报 58 8379]

    [5]

    Yin J W, Hui J Y, Wang Y L, Hui J 2007 Acta Phys. Sin. 56 5915 (in Chinese) [殷敬伟, 惠俊英, 王逸林, 慧娟 2007 物理学报 56 5915]

    [6]

    Wang N, Liu J Z 2002 Chin. Phys. 11 456

    [7]

    Duan R, Yang K D, Ma Y L, Lei B 2012 Chin. Phys. B 21 124301

    [8]

    Sarwate D S 1979 IEEE Trans. Inform. Theory 25 720

    [9]

    Welch L R 1974 IEEE Trans. Inform. Theory 20 397

    [10]

    Levenshtein V I 1996 Proceedings of IEEE 4th International Symposium On Spread Spectrum Techniques and Applications (Vol. 2) (Mainz: IEEE) p657

    [11]

    Stanczak S, Boche H, Haardt M 2001 Proceedings of IEEE Global Communications Conference (Vol. 1) (San Antonic: IEEE) p589

    [12]

    Pott A, Bradley S P 1995 IEEE Trans. Inform. Theory 41 301

    [13]

    Wolfmann J 1992 IEEE Trans. Inform. Theory 38 1412

    [14]

    Popvia B M 1995 IEEE Electron. Lett. 31 944

    [15]

    Fishman P A, Betz J W 2000 Proceedings of the Institute of Navigation's National Technical Meeting Anaheim, USA, January 26-28, 2000 p574

    [16]

    Giugno L, Luise M 2005 13th European Signal Processing Conference Antalya, Turkey, September 4-8, 2005 p760

    [17]

    Zanier F, Bacci G, Luise M 2009 Proc. IEEE 3 748

    [18]

    Betz J W 1999 Proceedings of ION National Technical Meeting San Diego, USA, January 25-27, 1999 p639

    [19]

    Moeneclaey M 1983 IEEE Trans. Commun. 31 1029

    [20]

    Andrea A N D, Mengali U, Reggiannini R 1994 IEEE Trans. Commun. 42 1391

    [21]

    Golay M J E 1961 IEEE Trans. Inform. Theory 7 644

计量
  • 文章访问数:  1634
  • PDF下载量:  475
  • 被引次数: 0
出版历程
  • 收稿日期:  2013-12-15
  • 修回日期:  2014-01-13
  • 刊出日期:  2014-05-05

二进制偏移载波调制的零相关窗水声同步技术研究

  • 1. 哈尔滨工程大学水声技术重点实验室, 哈尔滨 150001;哈尔滨工程大学水声工程学院, 哈尔滨 150001
    基金项目: 

    国家高技术研究发展计划(批准号:2009AA093601-2)、国防基础科学研究计划(批准号:B2420110007)、水声技术重点实验室基金(批准号:9140C200801110C2004)和国家自然科学基金(批准号:11304056)资助的课题.

摘要: 针对线性调频信号同步相关的旁瓣、m序列扩频同步的序列自噪声和二进制相移键控调制信号在主瓣周围一个码片范围内存在较强烈的旁瓣三个问题,提出了一种基于二进制偏移载波(BOC)调制信号的无干扰窗水声同步方式. 利用互补序列的非周期自相关函数之和为零的特殊性质,实现了在主瓣周围一个码片范围外,零相关窗范围内的无干扰窗. 使用BOC(1,1)方式对信号进行亚载波调制,以减少主瓣周围一个码片范围内的旁瓣. 对单通道信号和双通道信号的零相关窗形式都进行了设计,通过仿真和实验验证了BOC零相关窗方法在水声系统的同步、信道测量和估计中的有效性.

English Abstract

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