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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 170-173Review on Detection and Localization of Underwater...

Review on Detection and Localization of Underwater Target

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Abstract:

Europe, the United States and China have conducted a lot of research on the detection and localization of underwater target. The United States, the typical representative among Europe and America, pays much attention to marine research and has a profound foundation. In China, Harbin Engineering University, Institute of Acoustics of Chinese Academy of Sciences and Northwestern Polytechnical University also have done a lot of research on target detection and localization. Overall, the United States of America and other developed countries temporarily precede China in underwater target detection and localization.

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Progress in Civil Engineering

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Periodical:

Applied Mechanics and Materials (Volumes 170-173)

Pages:

2127-2131

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.170-173.2127

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Cite this paper

Online since:

May 2012

Authors:

Yang Guang, Yi Zheng, Shi Tao Wang, Xu Xiang, Yan Ting Yu

Keywords:

Detection and Localization, Research Status, Underwater Target

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Сopyright:

© 2012 Trans Tech Publications Ltd. All Rights Reserved

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Citation:

[1] CHIN-HSING CHEN, JIANN-DER LEE*, MING-CHI LIN. "Classification of Underwater Signals Using Wavelet Transforms and Neural Networks," Mathl. Comput. Modellang [J], Vol.27, No.2, pp: 47-60, 1998.

DOI: 10.1016/s0895-7177(97)00259-8

[2] Birsel Ayrulu, Billur Barshan. "Neural networks for improved target differentiation and localization with sonar," Neural Networks [J], pp: 355-373, 2001.

DOI: 10.1016/s0893-6080(01)00017-x

[3] Erdal Cayirci, Hakan Tezcan, Yasar Dogan, Vedat Coskun. "Wireless sensor networks for underwater survelliance systems," Ad Hoc Networks [J], pp: 431-446, 2006.

DOI: 10.1016/j.adhoc.2004.10.008

[4] Zoi-Heleni Michalopouloua. "Multiple source localization using a maximum a posteriori Gibbs sampling approach," Journal of the acoustical society of America [J], 120 (5), pp:2627-2634, November, 2006.

DOI: 10.1121/1.2354027

[5] Ralph N. Baer and Michael D. Collins. "Source localization in the presence of gross sediment uncertainties," Journal of the acoustical society of America [J], 120 (2), pp:870-874, August, 2006.

DOI: 10.1121/1.2213523

[6] Yvan Simard, Nathalie Roy, Cédric Gervaise. "Passive acoustic detection and localization of whales: Effects of shipping noise in Saguenay–St. Lawrence Marine Park," Journal of the acoustical society of America [J], 123 (6), pp:4109-4117, August, 2006.

DOI: 10.1121/1.2912453

[7] M. Berke Gur, Christopher Niezrecki. "A source separation approach to enhancing marine mammal vocalizations," Journal of the acoustical society of America [J], 126 (6), pp:3062-3070, December, 2009.

DOI: 10.1121/1.3257549

[8] Nicolas F. Josso, Cornel Ioana, Je´roˆme I. Mars, Ce´dric Gervaise. "Source motion detection, estimation, and compensation for underwater acoustics inversion by wideband ambiguity lag-Doppler filtering," Journal of the acoustical society of America [J], 128 (6), pp:3416-3425, December, 2010.

DOI: 10.1121/1.3504709

[9] Paul M. Baggenstoss. "An algorithm for the localization of multiple interfering sperm whales using multi-sensor time difference of arrival," Journal of the acoustical society of America [J], 130 (1), pp:102-112, July, 2011.

DOI: 10.1121/1.3598454

[10] Stan E. Dosso, Michael J. Wilmut. "Bayesian multiple-source localization in an uncertain ocean environment," Journal of the acoustical society of America [J], 129 (6), pp:3577-3589, June, 2011.

DOI: 10.1121/1.3575594

[11] Sean M. Wiggins, Mark A. McDonald, John A. Hildebrand. "Beaked whale and dolphin tracking using a multichannel autonomous acoustic recorder," Journal of the acoustical society of America [J], 131 (1), pp:156-163, January, 2012.

DOI: 10.1121/1.3662076

[12] Yue Jianping. The passive follow-up study of underwater moving target. Dissertation of Harbin Engineering University [D]. 2004.4. (In Chinese)

[13] Xiangyang Zeng, Yanmei Zhan. "Development of a noise sources classification system based on new method for feature selection," Applied acoustics [J], pp: 1196-1205, 2005.

DOI: 10.1016/j.apacoust.2005.02.007

[14] Ling Qing. Underwater detection and positioning research based on multi-destination address information. Dissertation of Harbin Engineering University [D]. 2006.7. (In Chinese)

[15] Wang Yan. Research on precise positioning technology of non-cooperative target. Dissertation of Harbin Engineering University [D]. 2006.4. (In Chinese)

[16] Yang Juan. Research on passive tracking key technologies of underwater moving target. Dissertation of Harbin Engineering University [D]. 2007.9. (In Chinese)

[17] Hui Junying, Sun Guocang, Zhao Anbang. The sound intensity flow of normal mode of vibration and cross-spectrum signal processing in the Pekeris waveguide. Journal of Acoustics [J]. Vol.33, No4, Jul, 2008. pp.300-304. (In Chinese)

[18] Yu Yun, Hui Junying, Zhao Anbang etc.. The complex sound intensity and its application of normal mode of vibration in the Pekeris waveguide. Journal of Physics [J]. Vol.57, No.9, September, 2008. pp.5742-5748. (In Chinese)

[19] Yu Yun, Hui Junying, Chen Yang etc.. Research on target deep classification algorithm in the low-frequency sound field of shallow water. Journal of Physics [J]. Vol.58, No.9, September, 2009. pp.6335-6343. (In Chinese)