一种利用海豚叫声的仿生水声通信方法

刘凇佐; 乔钢; 尹艳玲

doi:10.7498/aps.62.144303

摘要

针对水下通信隐蔽性的需求, 克服传统固定载波调制方式带来的声源暴露问题, 提出一种基于海豚叫声的仿生伪装水声通信方法, 使通信信号被当作海洋生物噪声排除, 达到隐蔽通信的效果. 研究了海豚叫声信号特点, 利用海豚哨声信号实现同步与识别, 采用差分脉冲位置调制方法, 信息调制在相邻海豚嘀嗒声信号的时间间隔, 采用压缩传感体制下的匹配追踪技术估计信道, 虚拟时反技术实现信道均衡. 湖试结果验证了该方法的有效性和可行性, 接收声信号与发射信号声音上具有很高的相似度, 可以达到伪装隐蔽的效果. 实验中水平距离2 km, 通信速率不小于29 bps时,误码率可以达到10-4以下.

关键词:

水声通信 /
仿生 /
海豚 /
隐蔽

Abstract

An underwater acoustic communication scheme using intrinsic dolphin sounds is proposed to overcome the sound exposure derived from traditional fixed carrier modulation for covert communication in this paper. The communication signal can be detected but it could easily be excluded in the process of recognition/classification by an adversary. This is because the signal resembles dolphin sounds. Properties of dolphin sounds are investigated in this paper. Synchronization in this scheme is achieved by using dolphin whistles while dolphin clicks are used as information carrier. The time interval between dolphin clicks conveys information. Channel equalization is performed by passive time reversal mirror technique, whereas channel estimation is done through matching pursuit method under the theory of compressive sensing. The efficiency and feasibility of the proposed method are verified by lake trial. The received signal and emission mimic bio-signal are very similar. Bit error rate less than 10-4 is achieved above 29 bps to a distance of about 2 km.

Keywords:

作者及机构信息

1.
哈尔滨工程大学, 水声技术重点实验室, 哈尔滨 150001

基金项目: 国家高技术研究发展计划重点项目(批准号: 2009AA093601-2)和国家自然科学基金(批准号: 11274079)资助的课题.

Authors and contacts

1.
Science and Technology on Underwater Acoustic Laboratory, Harbin Engineering University, Harbin 150001, China

Funds: Project supported by the National High Technology Research and Development Program of China (Grant No. 2009AA093601-2) and the National Natural Science Foundation of China (Grant No. 11274079).

参考文献

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施引文献

[1]	Sozer E M, Stojanovic M, Proakis J G 2000 IEEE J. Oceanic Eng. 25 72
[2]
[3]	van Walree P A, Leus G 2009 IEEE J. Oceanic Eng. 34 645
[4]
[5]	van Walree P A, Sangfelt E, Leus G 2008 Oceans 2008 Quebec City, Canada, September 15-18 2008 p264
[6]
[7]	Ling J, He H, Li J A, Roberts W, Stoica P 2010 J. Acoust. Soc. Am. 128 2898
[8]	Leus G, van Walree P A 2008 IEEE J. Sel. Area Commun. 26 1662
[9]
[10]
[11]	Leus G, van Walree P, Boschma J, Fanciullacci C, Gerritsen H, Tusoni P, 2008 Oceans 2008 Quebec City, Canada, September 15-18 2008 p391
[12]
[13]	Clausen K T, Wahlberg M, Beedholm K, Deruiter S, Madsen P T 2010 Bioacoustics Inter. J.A.S. Rec. 20 1
[14]	Yin J W, Hui J Y, Wang Y L, Hui J 2007 Acta Phys. Sin. 56 (in Chinese) [殷敬伟, 惠俊英, 王逸林, 惠娟 2007 56 56]
[15]
[16]
[17]	Stojanovic M, Catipovic J A, Proakis J G 1994 IEEE J. Oceanic Eng. 19 100
[18]
[19]	Donoho D L 2006 IEEE Trans. Inf. Theory 52 1289
[20]	Candes E J, Romberg J, Tao T 2006 IEEE Trans. Inf. Theory 52 489
[21]
[22]
[23]	Cotter S F, Rao B D 2002 IEEE Trans. Commun. 50 374
[24]
[25]	Yin J W, Wang Y L, Wang L, Hui J Y 2009 Chin. Sci. Bull. 54 1302
[26]
[27]	Lammers M O, Au W W L, Herzing D L 2003 J. Acoust. Soc. Am. 114 1629
[28]
[29]	Sims P Q, Vaughn R, Hung S K, Wuersia B 2012 J. Acoust. Soc. Am. 131 EL48
[30]
[31]	Yin J W, Zhang X, Sheng X L, Sun C 2012 Acta Commun. 6 121 (in Chinese) [殷敬伟, 张晓, 生雪莉, 孙超 2012 通信学报 6 121]
[32]	Siderius M, Porter M B 2008 J. Acoust. Soc. Am. 124 137
[33]
[34]

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