高频地波雷达在海洋学中的应用综述

作者：许张柳1  吴伦宇1  焦阳1  陈越2  刘桂梅1

单位：1. 国家海洋环境预报中心 自然资源部海洋灾害预报技术重点实验室, 北京 100081; 2. 深中通道管理中心, 广东 中山 528400

关键词：高频地波雷达 表面流观测 数值模拟 资料同化

分类号：P714；TN958

出版年·卷·期（页码）：2023·40·第四期（122-129）

摘要：

围绕高频地波雷达这一新兴的海洋观测手段，简述其特点和工作原理，并简单回顾了其发展历史，着重介绍分析了国内外以高频地波雷达为基础的表层流资料分析和对比验证、资料同化等方面的研究进展和近年来的应用成果，最后对高频地波雷达的发展历史及其数据应用进行了总结，并提出了未来几点发展方向。

In this paper, the characteristics and working principle of High Frequency Radar (HF radar), a new means of ocean observation, are described, and its history is briefly reviewed. The research progress in surface current data analysis, validation and data assimilation based on HF radar at home and abroad are emphatically introduced and analyzed, as well as the achievements of application in recent years. Finally, we summarize the development history of HF radar and its data application in oceanography. We also list some suggestions on HF radar's future development.

参考文献：

[1] 吴雄斌, 张兰, 柳剑飞. 海洋雷达探测技术综述[J]. 海洋技术学报, 2015, 34(3): 8-15. WU X B, ZHANG L, LIU J F. Overview of detecting techniques using oceanographic radars[J]. Journal of Ocean Technology, 2015, 34(3): 8-15. [2] CROMBIE D. Doppler spectrum of sea echo at 13.56 Mc./s. [J]. Nature, 1955, 175(4459): 681-682. [3] CROMBIE D. Resonant backscatter from the sea and its application to physical oceanography[C]//Ocean 72- IEEE International Conference on Engineering in the Ocean Environment. Newport: IEEE, 1972: 174-179. [4] BARRICK D. First-order theory and analysis of MF/HF/VHF scatter from the sea[J]. IEEE Transactions on Antennas and Propagation, 1972, 20(1): 2-10. [5] BARRICK D. Remote sensing of sea state by radar[C]//Ocean 72- IEEE International Conference on Engineering in the Ocean Environment. Newport: IEEE, 1972: 186-192. [6] BARRICK D, EVANS M W, WEBER B L. Ocean surface curr-ents mapped by radar[J]. Science, 1977, 198(4313): 138-144. [7] FUJII S, HERON M L, KIM K, et al. An overview of developments and applications of oceanographic radar networks in Asia and Oceania countries[J]. Ocean Science Journal, 2013, 48(1): 69- 97. [8] 孙芳, 刘玉红, 李佳讯. 高频地波雷达的发展与应用现状分析[J]. 海洋测绘, 2018, 38(4): 22-24. SUN F, LIU Y H, LI J X. Review of developments and applications status of high-frequency radar[J]. Hydrographic Surveying and Charting, 2018, 38(4): 22-24. [9] BARRICK D E. 30 years of CMTC and CODAR[C]//IEEE /OES 9th Working Conference on Current Measurement Technology. Charleston: IEEE, 2008: 131-136. [10] 侯杰昌, 吴世才, 杨子杰, 等. 海洋表面流的高频雷达遥感[J]. 地球物理学报, 1997, 40(1): 18-26. HOU J C, WU S C, YANG Z J, et al. Remote sensing of ocean surface currents by HF radar[J]. Chinese Journal of Geophysics, 1997, 40(1): 18-26. [11] 吴世才, 杨子杰, 文必洋, 等. 高频地波雷达的东海试验[J]. 武汉大学学报(理学版), 2001, 47(1): 111-117. WU S C, YANG Z J, WEN B Y, et al. Test of HF ground wave radar OSMAR2000 at the eastern China sea[J]. Journal of Wuhan University (Natural Science Edition), 2001, 47(1): 111-117. [12] TAKEOKA H, TANAKA Y, OHNO Y, et al. Observation of the Kyucho in the Bungo channel by HF radar[J]. Journal of Oceanography, 1995, 51(6): 699-711. [13] PRANDLE D, RYDER D K. Measurement of surface currents in Liverpool Bay by high-frequency radar[J]. Nature, 1985, 315(6015): 128-131. [14] PRANDLE D, LOCH S G, PLAYER R. Tidal flow through the straits of dover[J]. Journal of Physical Oceanography, 1993, 23(1): 23-37. [15] PRANDLE D. Year-long measurements of flow through the dover strait by H.F. radar and acoustic Doppler current profilers (ADCP) [J]. Oceanologica Acta, 1993, 16(5): 457-468. [16] RAMP S R, PADUAN J D, SHULMAN I, et al. Observations of upwelling and relaxation events in the northern Monterey Bay during August 2000[J]. Journal of Geophysical Research: Oceans, 2005, 110(C7): C07013. [17] ROUGHAN M, TERRILL E J, LARGIER J L, et al. Observations of divergence and upwelling around Point Loma, California[J]. Journal of Geophysical Research: Oceans, 2005, 110(C4): C04011. [18] 朱大勇, 邵浩, 李炎, 等. OSMAR高频地波雷达福建示范系统径向流数据质量分析[J]. 台湾海峡, 2007, 26(1): 7-16. ZHU D Y, SHAO H, LI Y, et al. Quality analyses of radial currents measured by a demonstration system of OSMAR HF radar in Fujian province[J]. Journal of Oceanography in Taiwan Strait, 2007, 26(1): 7-16. [19] 文必洋, 李自立, 周浩, 等. 便携式高频地波雷达东海洋山海域探测深度试验[J]. 电子与信息学报, 2010, 32(4): 998-1002. WEN B Y, LI Z L, ZHOU H, et al. Test for the detection depth with HF portable ground wave radar at Yangshan area of eastern China sea[J]. Journal of Electronics & Information Technology, 2010, 32(4): 998-1002. [20] 吉会峰, 李用留, 高清清, 等. 基于地波雷达观测资料的烂沙洋海域表层海流特征研究[J]. 海洋预报, 2017, 34(5): 64-73. JI H F, LI Y L, GAO Q Q, et al. Surface current characteristics analyzed by HF surface wave radar data in Lanshayang sea area [J]. Marine Forecasts, 2017, 34(5): 64-73. [21] 李程, 李欢, 王慧, 等. 1509号台风灿鸿期间“朱家尖-嵊山”高频地波雷达数据分析[J]. 海洋学研究, 2017, 35(1): 41-46. LI C, LI H, WANG H, et al. Data analysis of high frequency surface wave radar at Zhujiajian-Shengshan during typhoon Chanhom[J]. Journal of Marine Sciences, 2017, 35(1): 41-46. [22] 翁怡婵, 石少华, 程祥圣, 等.“灿鸿”台风期间高频地波雷达数据分析[J]. 海洋科学进展, 2017, 35(4): 495-502. WENG Y C, SHI S H, CHENG X S, et al. High frequency radar data analysis during Chan-Hom typhoon period[J]. Advances in Marine Science, 2017, 35(4): 495-502. [23] 郑世浩, 宁浩, 梁广建, 等. OSMAR-S型高频地波雷达在南海北部遥测海表面流的数据检验[J]. 海洋技术学报, 2019, 38(3): 1- 6. ZHENG S H, NING H, LIANG G J, et al. Data verification of OSMAR-S HF ground wave radar for the remote sea surface current in the northern south China sea[J]. Journal of Ocean Technology, 2019, 38(3): 1-6. [24] OKE P R, ALLEN J S, MILLER R N, et al. Assimilation of surface velocity data into a primitive equation coastal ocean model [J]. Journal of Geophysical Research: Oceans, 2002, 107(C9): 3122. [25] PADUAN J D, SHULMAN I. HF radar data assimilation in the Monterey Bay area[J]. Journal of Geophysical Research: Oceans, 2004, 109(C7): C07S09. [26] SHULMAN I, PADUAN J D. Assimilation of HF radar-derived radials and total currents in the Monterey Bay area[J]. Deep Sea Research Part II: Topical Studies in Oceanography, 2009, 56(3-5): 149-160. [27] HOTEIT I, CORNUELLE B, KIM S Y, et al. 2009. Assessing 4DVAR for dynamical mapping of coastal high-frequency radar in San Diego[J]. Dynamics of Atmospheres and Oceans, 2009, 48(1- 3): 175-197. [28] BREIVIK Ø, SÆTRA Ø. Real time assimilation of HF radar currents into a coastal ocean model[J]. Journal of Marine Systems, 2001, 28(3-4): 161-182. [29] MAU J C, WANG D P, ULLMAN D S, et al. Comparison of observed (HF radar, ADCP) and model barotropic tidal currents in the New York Bight and Block Island Sound[J]. Estuarine, Coastal and Shelf Science, 2007, 72(1-2): 129-137. [30] MAU J C, WANG D P, ULLMAN D S, et al. Model of the Long Island Sound outflow: Comparison with year-long HF radar and Doppler current observations[J]. Continental Shelf Research, 2008, 28(14): 1791-1799. [31] SUN Y F, CHEN C S, BEARDSLEY R C, et al. Surface circulation in Block Island Sound and adjacent coastal and shelf regions: a FVCOM-CODAR comparison[J]. Progress in Oceanography, 2016, 143: 26-45. [32] COSOLI S, LIČER M, VODOPIVEC M, et al. Surface circulation in the Gulf of Trieste (northern Adriatic Sea) from radar, model, and ADCP comparisons[J]. Journal of Geophysical Research: Ocean, 2013, 118(11): 6183-6200. [33] 郭佩芳. 地波雷达遥感资料的反演及应用研究[D]. 青岛: 中国科学院大学(中国科学院海洋研究所), 2006. GUO P F. Retrieval and application research of remote sensing data of ground wave radar[D]. Qingdao: Institution of Oceanology, Chinese Academy of Science, 2006. [34] 朱宇航, 曾学智, 彭世球. 高频地波雷达观测资料对南海北部海流的数值同化实验[J]. 热带海洋学报, 2016, 35(6): 10-18. ZHU Y H, ZENG X Z, PENG S Q. Assimilation experiments of high frequency ground wave radar current in the northern coast of the south China sea[J]. Journal of Tropical Oceanography, 2016, 35(6): 10-18. [35] 肖江洪, 陈泽宗, 赵晨, 等. 基于数据同化的高频地波雷达海流数据质量分析方法[J]. 武汉大学学报(理学版), 2017, 63(3): 213- 218. XIAO J H, CHEN Z Z, ZHAO C, et al. Quality analysis method of high frequency ground wave radar current data based on data assimilation[J]. Journal of Wuhan University (Natural Science Edition), 2017, 63(3): 213-218. [36] 史军强, 尹训强, 乔方利. 利用资料同化方法优化观测系统的空间布局: 以泰国湾为例[J]. 海洋学报, 2018, 40(2): 14-29. SHI J Q, YIN X Q, QIAO F L. Optimizing the spatial ocean observation system based on data assimilation assessment: the gulf of Thailand as an example[J]. Acta Oceanologica Sinica, 2018, 40(2): 14-29. [37] 吴玲娟, 高松, 徐江玲. 黄渤海近岸精细化三维温盐流业务化数值预报系统研发[J]. 防灾科技学院学报, 2015, 17(4): 83-91. WU L J, GAO S, XU J L. Development of Huanghai and Bohai coastal sea high resolution and operational numerical temperature-salinity-current forecasting system[J]. Journal of Institute of Disaster Prevention, 2015, 17(4): 83-91. [38] 吴雄斌, 杨绍麟, 程丰, 等. 高频地波雷达东海海洋表面矢量流探测试验[J]. 地球物理学报, 2003, 46(3): 340-346. WU X B, YANG S L, CHENG F, et al. Ocean surface currents detection at the eastern China Sea by HF surface wave radar[J]. Chinese Journal of Geophysics, 2003, 46(3): 340-346. [39] 申辉, 孙元福, 逄爱梅. 高频雷达OSMAR流速探测精度的对比验证[J]. 青岛海洋大学学报, 2002, 32(5): 680-686. SHEN H, SUN Y F, PANG A M. Comparisons of current speed measurements between HF radar OSMAR and ship-based current meter[J]. Journal of Ocean University of Qingdao, 2002, 32(5): 680-686. [40] 龚子平, 柯亨玉, 侯杰昌, 等. 高频地波雷达海洋表面流测量误差分析[J]. 武汉大学学报(理学版), 2007, 53(3): 356-360. GONG Z P, KE H Y, HOU J C, et al. Error analyze of current measurements by HF surface wave radar[J]. Journal of Wuhan University (Natural Science Edition), 2007, 53(3): 356-360. [41] 朱大勇, 李炎, 郭小钢, 等. 高频地波雷达海流验证研究述评[J]. 热带海洋学报, 2013, 32(4): 1-7. ZHU D Y, LI Y, GUO X G, et al. Review of studies on the validation of surface currents measured by high-frequency radar [J]. Journal of Tropical Oceanography, 2013, 32(4): 1-7.

服务与反馈：

【文章下载】【发表评论】【查看评论】【加入收藏】