Multisource Target Classification Based on Underwater Channel Cepstral Features

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摘要 Passive target detection through shipping-radiated noise is a key technology in current underwater operations and is of great research value in civil and military fields.In this study,the stable spectral line component of shipping-radiated noise is used as the research object,and the classification of multisource targets is studied from the perspective of underwater channels.We utilize the channel impulse response function as the classification basis of different targets.First,the underwater channel is estimated by the cepstrum.Then,the channel cepstral features carried by different spectral line components are extracted in turn.Finally,the spectral line components belonging to the same target are clustered by the cepstral feature distance to realize the classification of different targets.The simulation and experimental results verify the effectiveness of the proposed method in this research.

作者 LI Xiukun JIA Hongjian DONG Jianwei QIN Jixing

机构地区 College of Underwater Acoustic Engineering Acoustic Science and Technology Laboratory Key Laboratory of Marine Information Acquisition and Security(Harbin Engineering University) State Key Laboratory of Acoustics

出处《Journal of Ocean University of China》 SCIE CAS CSCD 2022年第4期917-925,共9页 中国海洋大学学报（英文版）

基金 This study was supported by the National Natural Sci-ence Foundation of China(No.11774073) the State Key Laboratory of Acoustics(No.SKLA201904).

关键词 shipping-radiated noise underwater channel cepstral features target classification

分类号 U661.44 [交通运输工程—船舶及航道工程]

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参考文献4

1Hongjian Jia,Xiukun Li,Xiangxia Meng,Yang Yang.Extraction of Echo Characteristics of Underwater Target Based on Cepstrum Method[J].Journal of Marine Science and Application,2017,16(2):216-224. 被引量：3
2田杰,张春华,刘维,黄海宁,薛山花.基于倒谱分析的被动水声目标分类[J].系统工程与电子技术,2005,27(10):1708-1710. 被引量：9
3WANG Yu,LIU Yingjian,GUO Zhongwen.Three-Dimensional Ocean Sensor Networks:A Survey[J].Journal of Ocean University of China,2012,11(4):436-450. 被引量：21
4王燕,邹男,付进,梁国龙.基于倒谱分析的单水听器目标运动参数估计[J].物理学报,2014,63(3):191-202. 被引量：10

二级参考文献104

1汤渭霖.声呐目标回波的亮点模型[J].声学学报,1994,19(2):92-100. 被引量：138
2田杰,张春华,刘维,黄海宁,薛山花.基于倒谱分析的被动水声目标分类[J].系统工程与电子技术,2005,27(10):1708-1710. 被引量：9
3VapnikV.统计学习理论的本质[M].北京：清华大学出版社,2000..
4Zielinski A,Yoon Y H,Wu Lixue. Performance analysis of digital acoustic communication in a shallow water channel[J]. IEEE Journal of Oceanic Engineering, 1995,20(4) :293 - 299.
5Osuna E, Freund R, Girosi F. An improved training algorithm for support vector machine[A]. Proceedings of 1997 IEEE workshop on neural networks for signal processing[C]. Amelea Island, FL:IEEE, 1997. 276 - 285.
6Abdallah, A., Fevens, T., and Opatrny, J., 2006. Randomized 3D position-based routing algorithms for ad hoc networks. The Third Annual International Conference on Mobile and Ubiq- uitous Systems: Networking & Services. 1-8, DOI: 10.1109/ MOBIQ.2006.340457.
7Abdallah, A., Fevens, T., and Opatmy, J., 2007. Power-aware 3D position-based routing algorithm for .ad hoc networks. Proceeding of IEEE International Conference on Communi- cations (ICC '07). 3130-3135, DOI: 10.1109/ICC.2007.519.
8Akkaya, K., and Newell, A., 2009. Self-deployment of sensors for maximized coverage in underwater acoustic sensor net- works. Computer Communications, 32 (7): 1233-1244, DOI: 10.1016/j.comcom.2009.04.002.
9Akyildiz, I. F., Pompili, D., and Melodia, T., 2005. Underwater acoustic sensor networks: research challenges. Ad Hoc Net- works, 3 (3): 257-279, DOI: 10.1016/j.adhoc.2005.01.004.
10Akyildiz, I. F., Pompili, D., and Melodia, T., 2007. State of the art in protocol research for underwater acoustic sensor net- works. Mobile Computing and Communications Review, 11 (4): 11-22, DOI: 10.1145/1347364.1347371.

共引文献38

1Weiwen Hu.Method of fuzzy uniformity analysis for simulation underwater acoustic signals[J].Journal of Systems Engineering and Electronics,2010,21(2):318-322. 被引量：1
2李玉兰,郑海起,王平,原瑞宏,唐力伟,栾军英.基于功率-幅值谱的炮膛疵病图像识别[J].光电工程,2010,37(5):37-40.
3王志强,李钢虎,魏鑫.倒谱和复倒谱在被动声纳目标识别中的应用[J].声学技术,2011,30(3):280-283.
4赵旦峰,梁明珅,段晋珏.水声网络中喷泉码的应用研究现状与发展前景[J].系统工程与电子技术,2014,36(9):1838-1843. 被引量：8
5ZHOU Hao,ROARTY Hugh,WEN Biyang.Wave Extraction with Portable High-Frequency Surface Wave Radar OSMAR-S[J].Journal of Ocean University of China,2014,13(6):957-963. 被引量：2
6邓晓平,马路娟.一种多速率水声传感器网络协商机制[J].无线电通信技术,2015,41(1):17-20. 被引量：3
7江伟华,曹秀岭,童峰.采用支持向量机的水声通信信号调制识别方法[J].厦门大学学报（自然科学版）,2015,54(4):534-539. 被引量：16
8李泽军,陈敏.传感网中不规则复杂3D平面定位策略研究[J].湖南大学学报（自然科学版）,2015,42(8):125-131.
9付进,许婉琰,王燕,梁国龙.复倒谱域水声信道多途抑制技术[J].哈尔滨工程大学学报,2015,36(9):1188-1193. 被引量：3
10宋光明,张松,周帆.水下声通信传感器网络路由协议研究[J].兵工学报,2015,36(S2):231-237. 被引量：1

1付燕,韩泽,叶鸥.针对近重复视频的FD-means聚类清洗算法[J].计算机工程与应用,2022,58(1):197-203. 被引量：1
2Chao Yu,Yin Li,Jianzhi Ding,Yun Mao,Ying Guo.Photon subtraction-based continuous-variable measurement-device-independent quantum key distribution with discrete modulation over a fiber-to-water channel[J].Communications in Theoretical Physics,2022,74(3):36-43.
3L. K. Balcziak,T. H. Bach,L. R. Montgomery,M. E. Warwick,U. Akgun.Calmodulin Bound Aquaporin-0 Reveals Two Distinct Energy Profiles[J].Computational Molecular Bioscience,2016,6(4):66-79.
4HAN HongGui,ZHEN Qi,YANG HongYan,DU YongPing,QIAO JunFei.Mobile phone recognition method based on bilinear convolutional neural network[J].Science China(Technological Sciences),2021,64(11):2477-2484. 被引量：3
5Angela Huang,Aroucha Vickers,Claudia M.Prospero Ponce,Andrew G.Lee.Neuromyelitis optica and myelin oligodendrocyte glycoprotein[J].Annals of Eye Science,2018(1):147-157.
6Qiang Liua,Lizhao Wang,Ying Qu,Nanfeng Liu,Suhong Liu,Hairong Tang,Shunlin Liang.Preliminary evaluation of the long-term GLASS albedo product[J].International Journal of Digital Earth,2013,6(S01):69-95. 被引量：15
7Ao Xiong,Renping Xiong,Jing Yu,Yijia Liu,Ke Liu,Ge Jin,Jianzhong Xu,Jun Yan.Aquaporin-4 is a potential drug target for traumatic brain injury via aggravating the severity of brain edema[J].Burns & Trauma,2021,9(1):584-593. 被引量：9
8Elham Abaie,Limeimei Xu,Yue-xiao Shen.Bioinspired and biomimetic membranes for water purification and chemical separation: A review[J].Frontiers of Environmental Science & Engineering,2021,15(6):141-173. 被引量：2
9WANG Xiaoxi,WU Wenjun,YANG Feng,SI Pengbo,ZHANG Xuanyi,ZHANG Yanhua.Pseudo-label based semi-supervised learning in the distributed machine learning framework[J].High Technology Letters,2022,28(2):172-180.
10S.Lalitha,Deepa Gupta,Mohammed Zakariah,Yousef Ajami Alotaibi.Mental Illness Disorder Diagnosis Using Emotion Variation Detection from Continuous English Speech[J].Computers, Materials & Continua,2021(12):3217-3238. 被引量：1

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Multisource Target Classification Based on Underwater Channel Cepstral Features

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