Acta Photonica Sinica, Volume. 46, Issue 7, 712001(2017)
Coherence Detection of Frequency of Underwater Multi-source Acoustic Signals Based on Hilbert Transforms
[1] [1] SPEARS A, HOWARD A M, WEST M, et al. Determining underwater vehicle movement from sonar data in relatively featureless seafloor tracking missions[C]. IEEE Applications of Computer Vision. 2014: 909-916.
[2] [2] BUSKENESJ I, ASEN J P, NILSEN C C, et al. An optimized GPU implementation of the MVDR beam former for active sonar imaging[J]. IEEE Journal of Oceanic Engineering, 2015,40(2): 441-451.
[3] [3] CHO H, GU J, JOE H, et al. Acoustic beam profile-based rapid underwater object detection for an imaging sonar[J]. Journal of Marine Science and Technology, 2015,20(1): 1-18.
[4] [4] XIE Jun, DA Liang-long, HU Jun-chuan. Waveform simulation of low frequency line spectrum on near field radiated propeller cavitation noise[J]. Technical Acoustics, 2011,30(4): 364-368.
[5] [5] XIE Jun, DA Liang-long, TANG Shuai. Modeling and simulation of vessel propeller cavitation noise[J]. Acta Armamentarh, 2013,34(3): 294-300.
[6] [6] ZHAO Pei-cong. Study status and development trend of foreign sonar technology[J]. Modern Radar, 2016,38(8): 20-24,69.
[7] [7] ANTONELLI L, WALSH K, ALBERG A. Laser interrogation of the air-water interface for in-watersound detection: initial feasibility tests[J]. The Journal of the Acoustical Society of America, 1999, 106(4).
[8] [8] ANTONELLI LT, KISTEINS I P. Empirical acousto-optic sonar performance versus water surface conditions[C]. Proceedings of OCEANS 2001, Honolulu: IEEE Computer Society, 2001, 3: 1546-1552.
[9] [9] SHI Guang-zhi, HU Jun-chuan, CHENG Yu-sheng. Frequency feature extraction of ship radiated noise based on multi-resolution analysis[J]. Journal of Qindao University, 2003,16(4): 44-48.
[10] [10] HE Yan, SHANG Jian-hua, LIU Dan, et al. Heterodyne laser Doppler vibrometer for underwater acousto-optic communication[J]. China Journal of Lasers, 2009,36(1): 189-192.
[11] [11] HE Yan, WANG Wen-kui, XIA Wen-bing, et al. Laser Doppler vibrometer for acousto-optic communication[J]. China Journal of Lasers, 2007,34(5): 703-706.
[12] [12] ZHANG Xiao-lin, TANG Wen-yan, SUN He-yi. Laser interferometry of underwater acoustic signals[J]. Optics and Precision Engineering, 2010,18(4): 809-815.
[13] [13] ZHANG Xiao-lin, TANG Wen-yan, SUN He-yi. Frequency identification of underwater acoustic signals based on Morlet wavelet[J]. Journal of Optoelectronics Laser, 2010,21(12): 1839-1841.
[14] [14] MIAO Run-cai, WANG Yu-ming, MENG Feng, et al. Detection of underwater low-frequncy acoustic signal and wave attenuation[J]. Acta Photonica Sinica, 2013,42(4): 432-436.
[15] [15] WANG Yu-ming, MIAO Run-cai, MA Jing, et al. Detection of diffraction light field of low-frequency underwater signal[J]. Laser Technology, 2013,37(5): 686-689.
[16] [16] CAO Zeng-hui, ZHENG Tian-tian, SUN Teng-fei, et al. Experiment research on underwater acoustic signal for laser detection[J]. Electro-optic Technology Application, 2014,29(2): 17-22.
[17] [17] DAI Zhen-hong, SUN Jing-zuo, SUI Peng-fei. Theoretical study on the water surface transversal mini-wave due to the underwater sound field[J]. Journal of National University of Defense Technology, 2004,26(1): 95-98.
[18] [18] DAI Zhen-hong, SUN Jing-zuo, SUI Peng-fei. Theoretical study on transverse microwave one-dimensional model of water surface[J]. Journal of Yantai University (National Science and Engineering Editon), 2003,16(1): 23-28.
[19] [19] ZHANG Xiao-lin. Study of water surface acoustic detection technique based on laser interference[D]. Harbin: Harbin Institute of Technology, 2010.
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ZHANG Xiao-lin, LI Kai-qin, LIU Gang, ZHANG Lie-shan, TANG Wen-yan. Coherence Detection of Frequency of Underwater Multi-source Acoustic Signals Based on Hilbert Transforms[J]. Acta Photonica Sinica, 2017, 46(7): 712001
Received: Jan. 16, 2017
Accepted: --
Published Online: Aug. 9, 2017
The Author Email: Xiao-lin ZHANG (zhangxiaolin@hit.edu.cn)