RESEARCH STATUS AND PROSPECT OF SONARDETECTING TECHNIQUES NEAR SUBMARINE
Received date: 2004-11-02
Revised date: 2005-07-04
Online published: 2005-11-25
The research and developing history of China's submarine instruments are reviewed. The present research status and tendency of sonar-techniques for submarine exploring, such as multi-beam sounding, sub-profiler sonar and side-scan sonar etc, are summarized and contrasted with the international status. Although many papers about the marine technique or theory are published and a lot of marine instruments are made in China in the last decades, there are still a great many urgent unfathomed issues about China's marine techniques. The current level of China's ocean techniques still lags behind the overseas ocean techniques. The main forces to impel China's ocean techniques developing quickly in recent years are that China's deep-sea resources researches are carried out deeply and quickly and a series of important survey projects to protect the ocean rights and interests have been brought into effect in China Sea. Since the late 1990s, a series of marine research projects under the “863” Program have been initiated, with lots of key instruments and softwares being developed serving China's survey projects. China's submarine techniques are developing quickly. Multi-beam sounding, sub-profiler sonar and side-scan sonar are convenient tools to explore the submarine quickly. They are based on similar detecting principles, but different acoustics information near submarine are obtained for different frequencies, and powers are used in these instruments. The datum about water depth, amplitude and backscatter are obtained with multi-beam sounding ,the reflecting profiles from underlain sediment layer just like single seismic profile are detected with sub-profiler sonar. The seafloor images are obtained with side-scan sonar. These data are the base to study many issues about submarine geosciences. Seabed acoustics classification techniques, submarine acoustics in-situ test, dynamic geomorphologic and morphology tectonic are several hot-topics of application research based on the data of sonar-detecting near submarine. In the end, several sustainable development ideas about China’s marine techniques are proposed: ①More articles about theory and technique of submarine techniques should be published to promote the research ability and level; ②More submarine detecting instruments and equipment should be invented and produced quickly in China to quicken the homemade progress; ③The data-processing software of submarine instruments should be built in China to enhance the copyright of our own; ④The data of sonar-detecting near seafloor should be studied and applied deeply to widen the realms of submarine geosciences.
WU Zi-yin , GAO Jin-yao1 , ZHENG Yu-long , TAO Chun-hui , CHU Feng-you . RESEARCH STATUS AND PROSPECT OF SONARDETECTING TECHNIQUES NEAR SUBMARINE[J]. Advances in Earth Science, 2005 , 20(11) : 1210 -1217 . DOI: 10.11867/j.issn.1001-8166.2005.11.1210
[1]Kennett J.Marine Geology[M].Cheng Guodong, translated.Beijing:Ocean Press,1992.[Kennett J.海洋地质学[M]. 成国栋 译.北京:海洋出版社,1992.][2]Shepard F P.Submarine Geology[M].Liang Yuanbo,Yu Liansheng, translated.Beijing:Science Press,1979. [Shepard F P.海底地质学[M].梁元博,于联生,译.北京:科学出版社,1979.]
[3]Jin Xianglong, ed.Marine Geology and Deposit Features for Mineral Belt of Polymetallic Nodules in Eastern Pacific Ocean[M].Beijing:Ocean Press,1997.[金翔龙,主编.东太平洋多金属结核矿带海洋地质与矿床特征[M].北京:海洋出版社,1997.]
[4]Li Tiegang,Cao Qiyuan,Li Anchun,et al.Source to sink:Sedimentation in the continental margins[J].Advances in Earth Science, 2003,18(5):713-721.[李铁刚,曹奇原,李安春,等.从源到汇:大陆边缘的沉积作用[J].地球科学进展,2003,18(5):713-721.]
[5]Jin Xingchun,Yu Kaiping.Subduction factory and subduction recycling of continental material[J].Advances in Earth Science,2003,18(5):737-744.[金性春,于开平.俯冲工厂和大陆物质的俯冲再循环研究[J].地球科学进展,2003,18(5):737-744.]
[6]Li Jianghai,Niu Xianglong,Feng Jun.The indentification of the fossil black smoker chimney and its implication for scientific research[J].Advances in Earth Science, 2004,19(1):17-25.[李江海,牛向龙,冯军.海底黑烟囱的识别研究及其科学意义[J].地球科学进展,2004,19(1):17-25.]
[7]Tian Tan,Liu Guozhi,Sun Dajun.Sonar Technology[M].Harbing:Press of Harbing Engineering Unversity, 2000.[田坦,刘国枝,孙大军.声呐技术[M].哈尔滨:哈尔滨工程大学出版社,2000.]
[8]Jin Xianglong.The development of technique of marine geophysics[J].Journal of East China Instiitute of Technology, 2004,27(1):6-13.[金翔龙.海洋地球物理技术的发展[J].华东理工学院学报,2004,27(1):6-13.]
[9]Li Jiabiao, ed.Multibeam Sounding Principles Survey Technologies and Data Processing Methods[M]. Beijing:Ocean Press, 1999.[李家彪,主编.多波束勘测原理技术和方法[M].北京:海洋出版社,1999.]
[10]Wang Zhixiong,Gao Ping,Mo Jie.Application of modern technical methods to sea-floor geologic exploration and their development tendency[J].Marine Geology & Quaternary Geology, 2002,22(2):109-114.[王志雄,高平,莫杰.海底地质勘查现代技术方法的应用现状及发展趋势[J].海洋地质与第四纪地质, 2002,22(2):109-114.]
[11]Chen Weimin.Development of the seafloor survey technology[J].Ocean Technology,1996,15(3):25-29.[陈卫民.海底勘查技术的最新发展[J].海洋技术,1996,15(3):25-29.]
[12]Zhu Guangwen.Review and prospect for the marine survey technology development in the past 50 years of China[J].Ocean Technology,1999,18(3):1-13.[朱光文.我国海洋探测技术五十年的回顾与展望(二)[J].海洋技术,1999,18(3):1-13.]
[13]Hui Shaotang,Huo Shumei.History of research and development of China’s marine instruments and equipment in retrospect[J].Ocean Technology,1998,17(4):1-6.[惠绍棠,霍树梅.中国海洋仪器设备研究发展的历史回顾[J].海洋技术,1998,17(4):1-6.]
[14]Chen Fuxing.Model PGS mid-stratigraphic geological profiler[J].Ocean Technology, 1995,14(2):14-28.[陈福兴.PGS型中地层地质剖面仪[J].海洋技术,1995,14(2):14-28.]
[15]Wei Jianjiang,Yin Dongyuan.The CS-Ⅰ sidescan sonar system[J].Ocean Technology, 1997,16(1):1-13.[魏建江,尹东源.CS-Ⅰ型侧扫声呐系统[J].海洋技术,1997,16(1):1-13.]
[16]Chen Feifan.The developing of researches on multi-beam swath bathymeter[J].Ocean Technology,1998, 17(2):1-5.[陈非凡.多波束条带测深技术的研究[J].海洋技术,1998,17(2):1-5.]
[17]Chen Feifan.Estimation of dynamic measuring error for multibeam swath bathymeter[J].Ocean Technology,1999,18(1):42-45.[陈非凡.多波束条带测深仪的动态测量误差评估[J].海洋技术,1999,18(1):42-45.]
[18]Spiess F N.Seafloor research and ocean technology[J].MTS Journal,1987,21(2):5-17.
[19]Flemming B W.Recent Developments in Side-Scan Sonar Techniques[M].South Africa:Central Acoustics Laboratory,University of Cape Town,1982.[20]Wu Ziyin,Li Jiabiao.The editing methods of multi-beam survey data[J].Marine Science Bulletin, 2000,19(3): 74-78. [吴自银,李家彪.多波束勘测的数据编辑方法[J].海洋通报,2000,19(3): 74-78.]
[21]Wu Ziyin,Jin Xianglong,Gao Jinyao,et al.Key technology of submarine integrated mapping of topography and geomorphic based on multi-source datum[J].Acta Oceanologica Sinica,2003,25(suppl.1):143-148.[吴自银,金翔龙,高金耀,等.地形地貌多源数据综合成图关键技术[J].海洋学报, 2003,25(增1):143-148.]
[22]Zhu Qing,Li Deren.Error analysis and processing of muitibeam soundings[J].Journal of Wuhan Technical University of Surveying and Mapping,1998,23(1):1-4.[朱庆,李德仁.多波束测深数据的误差处理与分析[J].武汉测绘科技大学学报,1998,23(1):1-4.]
[23]He Gaowen,Liu Fanglan,Yu Ping,et al.Acoustic velocity correction for multibeam echo sounding system[J]. Marine Geology & Quaternary Geology, 2000,20(4):109-113.[何高文,刘方兰,余平,等.多波束测深系统声速校正[J].海洋地质与第四纪地质,2000,20(4):109-113.]
[24]Hua Zugen,Pan Guofu,Qian Xinyan.Current state and prospect of application of acoustic technique for manganese nodule investigation[J].Ocean Technology, 1993,12(4):13-19.[华祖根,潘国富,钱鑫炎.声学技术在大洋多金属结核调查中的应用现状和展望[J].海洋技术,1993,12(4):13-19.]
[25]Hua Zugen.Features of sub-bottom profile in the deep sea and the relationship of the abundance of poly-metallic nodules[J].Donghai Marine Science, 1999,17(3):55-61.[华祖根.深海浅地层剖面特征及其与多金属结核富集度的关系[J].东海海洋,1999,17(3):55-61.]
[26]Pan Guofu.Acoustic stratigraphic interpretation of shallow seismic acoustic profiles[J].Marine Geology & Quaternary Geology, 1991,11(1):93-103.[潘国富.浅层地震声学剖面的声地层学解释[J].海洋地质与第四纪地质, 1991,11(1):93-103.]
[27]Wang Runtian.Progress in detecting the geological formations and sediment properties by sound[J].Acoustic Technology,2002,21(1):96-98.[王润田.海底声学探测与底质识别技术的新进展[J].声学技术,2002,21(1):96-98.]
[28]Huang Haining,Li Zhishun.A new practical way for classifying lake bottom sediment[J].Journal of Northwestern Polytechnical University,1998,16(3):421-426.[黄海宁,李志舜.湖底沉积物分类的新方法研究[J].西北工业大学学报,1998,16(3):421-426.]
[29]Wang Zhengyin,Ma Yuanliang,Gimenez G,et al.Classification of lake bottom sediments using a wideband active sonar system[J].Acta Acustica,1996,21(4):517-524.[王正垠,马远良, Gimenez G,等.宽带声呐湖底沉积物分类研究[J].声学学报,1996,21(4):517-524.]
[30]Tao Chunhui,Jin Xianglong,Xu Feng,et al.The prospect of seabed classification technology[J].Donghai Marine Science,2004,22(3):28-33.[陶春辉,金翔龙,许枫,等.海底声学底质分类技术的研究现状与前景[J].东海海洋,2004,22(3):28-33.]
[31]Lü Hailong,Du Dewen,Shi Xuefa.Estimation method of bottom sediment type in the Jiaozhou bay based on the bathymetric data[J].Advances in Marine Science, 2004,22(3):328-333.[吕海龙,杜德文,石学法.基于测深数据地胶州湾底质类型估计方法[J].海洋科学进展,2004,22(3):328-333.]
[32]Reedlv T B, Hussong D.Digital image processing techniques for enhancement and classification of SeaMARC Ⅱ sidescan sonar imagery[J].Journal of Geophysical Research(B6),1989,94:7 469-7 490.
[33]Brain J T,Gordon B,Courtney F J,et al.Quaternary geology and surficial sediment processes,Browns Bank,Scotian Shelf, based on multibeam bathymetry[J].Marine Geology,1999,162(1):165-214.
[34]Goff J A, Swift D J P, Duncan C S,et al.High-resolution swath sonar investigation of sand ridge,dune and ribbon morphology in the offshore environment of the New Jersey margin[J].Marine Geology,1999, 161(2~4):307-337.
[35]Purdy G M,Sempere J C,Schouten H,et al.Bathymetry of the mid-Atlantic ridge,24~31°N:A map series[J].Marine Geophysical Researches,1990,12(4):247-252.
[36]Humphris S E,Kleinrock M C.Detailed morphology of the TAG active hydrothermal mound: Insights into its formation and growth[J].Geophysical Research Letter,1996,23(24):3 443-3 446.
[37]Kleinrock M C, Humphris S E.Structural control on seafloor hydrothermal activity at the TAG active mound[J].Nature,1996,382(6 587):149-153.
[38]Carbotte S,Macdonald K.East Pacific rise 8~10°30'N:Evolution of ridge segments and discontinuities from SeaMARC Ⅱ and three-dimensional magnetic studies[J].Journal of Geophysical Research,1992,97(B5): 6 959-6 982.
[39]Grindlay N R,Fox P J,Vogt P R.Morphology and tectonics of the mid-Atlantic ridge(25~27°30'S)from SeaBeam and magnetic data[J].Journal of Geophysical Research,1992,97(B5):6 983-7 010.
[40]Lourenco N,Miranda J M,Luis J F,et al.Morpho-tectonic analysis of the Azores volcanic Plateau from a new bathymetric compilation of the area[J].Marine Geophysical Researches,1998,20(2):141-156.
[41]Li Jiabiao, Jin Xianglong, Gao Jinyao.Morpho-tectonic study on late-stage spreading of the eastern subbasin of South China Sea[J]. Science in China(D),2002, 45(11):978-989.
[42]Wang Xiaobo,Li Jiabiao,Zheng Yulong,et al.The characteristics and formation mechanism of seafloor topography and geomorphology in the eastern basin of South China Sea[J].Acta Oceanologica Sinica, 2003,25(suppl.1):52-61.[王小波,李家彪,郑玉龙,等.南海东部海盆地形地貌特征及形成机制[J].海洋学报,2003,25(增1):52-61.]
[43]Li JiaBiao, Jin Xianglong, Ruan Aiguo, et al.Indentation tectonics in the accretionary wedge of middle Manila Trench[J].Chinese Science Bulletin,2004,49(12):1 270-1 288.
[44]Wu Ziyin,Wang Xiaobo,Jin Xianglong,et al.The evidences of the back-arc spreading and discussion on the key-issues in the Okinawa Trough[J].Marine Geology & Quaternary Geology,2004,24(3):67-75.[吴自银,王小波,金翔龙,等.冲绳海槽弧后扩张证据及关键问题探讨[J].海洋地质与第四纪地质,2004,24(3):67-75.]
[45]Fu Mingzuo,Liu Lejun,Zheng Yanpeng,et al.Tectonic geomorphology of the Ryukyu Trench-Arc-Backarc system:Geological-geophysical exploration and mapping[J].Chinese Science Bulletin,2004,49(14):512-526.
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