于华明


副教授
中国海洋大学海洋与大气学院
青岛市松岭路238号，266100
E-mail：hmyu@ouc.edu.cn


教育经历：
2001/09-2005/06 中国海洋大学 海洋科学 学士, 辅修 计算机科学与技术 专业
2005/09-2008/06中国海洋大学物理海洋学硕士
2008/09-2010/06 中国海洋大学 物理海洋学 博士
2008/11-2010/09德国汉堡大学联合培养博士
工作经历：
2010/07-2014/12 中国海洋大学 海洋环境学院 讲师
2015/01-今 中国海洋大学海洋与大气学院副教授
主要项目：
[1]2019/09-2020/12，国家重点研发计划“全球高分辨率海浪再分析产品研制”（2016YFC**，国家级项目），218万，主持
[2]2015/01-2017/12，国家自然科学基金青年项目“全球海洋潮能通量与耗散”（**，国家级项目），24万，主持
[3]2016/05-2018/12，科技创新战略研究专项“德国科技计划项目资料收集整理及翻译”（ZLY**，国家级项目），8万，主持
[4]2011/09-2013/08，海洋可再生能源专项“福建沙埕港八尺门万千瓦级潮汐电站站址勘查及工程预可研”（GHME2011ZC03，省部级项目），500万，主持
[5]2015/06-2015/11，科技服务“威海市区海洋空间资源调查”（**），201.1万，主持
[6]2014/11-2016/11，科技服务“东营海洋数据调查收集、计算分析与业务预报技术服务
”（**），130万，主持
[7]2015/06-2017/12，科技服务“G228丹东线乳山口大桥项目海域使用论证、海洋环境影响评价、对海洋公园影响专题项目”，110万元，主持
[8]2015/12-2016/04，科技服务“崆峒岛生态环境监测与评价”（**），101万，主持
[9]2017/9-2018/9，海浪再分析产品研制，全球变化专项（省部级项目），80万元，主持
[10]2015/4-2016/5，威海湾海域环境监测项目，50万元，主持
[11]2015/6-2017/9，G228丹东线乳山口大桥项目海域使用论证与海洋环境影响评价，80万元，主持
[12]2014/1-2015/12，海洋能综合支撑服务平台建设（省部级项目），50万元，参与
[13]2016/3-2017/3，日照山海天一级渔港工程对日照国家及海洋公园环境影响专题评价，50万元，主持
[14]2011/6-2013/6，潮汐能计算模型和方法研制，47万元，主持
[15]2015/12-2017/12，滨海西路夹河桥工程海域使用论证与海洋环境影响评价，80万元，主持
[16]2011/12-2014/12，锚定式双导管涡轮潮流发电系统研究，20万元，参与


代表文章：
[1]H.Yu*,J. Li, et. al. A global high-resolution ocean wave model improved by assimilating the satellite altimeter signifificant wave height. Int J Appl Earth Obs Geoinformation, 70, 2018, 43-50, https://doi.org/10.1016/j.jag.2018.03.012
[2]D.Qu, H.Yu*,et. al.Numerical study on the summertime patches of red tide in the adjacent seaof the Changjiang (Yangtze) River Estuary, China. Marine Pollution Bulletin, 143, 2019, 242-255, https://doi.org/10.1016/j.marpolbul.2019.04.027
[3]X. Yu, S. Zhang, J. Li, L. Lu, Z. Liu, M. Li, H. Yu, G. Han, X. Lin,L. Wu, and P. Chang. A Multi-Timescale EnOI-Like High-EffificiencyApproximate Filter for Coupled ModelData Assimilation. Journal of Advances in Modeling Earth System, 2018, 10.1029/2018MS001504
[4]Z.Wang, S.Li, S.Dong, K.Wu*, H.Yu, et. al. Extreme wave climate variability in South China Sea. Int J Appl Earth Obs Geoinformation, 73, 2018, 586-594, https://doi.org/10.1016/j.jag.2018.04.009
[5]X.Liu, J.Wang, Y.Zhang, H.Yu, et. al. Comparison between two GAMs in quantifying the spatial distribution of Hexagrammos otakii in Haizhou Bay, China. Fisheries Research, 218, 2019, 209-217, https://doi.org/10.1016/j.fifishres.2019.05.019
[6]W.Li,M.Wang,G.Burgaud, H.Yu,L.Cai. Fungal Community Composition and Potential Depth-Related Driving Factors Impacting Distribution Pattern and Trophic Modesfrom Epi- to Abyssopelagic Zones of the Western Pacific Ocean.Microbial Ecology.https://doi.org/10.1007/s00248-019-01374-y
[7]Y.Xue, K.Tanaka, H.Yu, et. al. Using a new framework of two-phase generalized additive models to incorporate prey abundance in spatial distribution models of juvenile slender lizardfish in Haizhou Bay, China.MARINE BIOLOGY RESEARCH, 2018,https://doi.org/10.1080/**.2018.**
[8]M. Bao, X. Bao, H. Yu, Y. Ding. Tidal Characteristics in the Wenzhou Offshore Waters and Changes Resulting from the Wenzhou Shoal Reclamation Project.J. Ocean Univ. China (Oceanic and Coastal Sea Research), DOI 10.1007/s11802-015-2498-z, ISSN 1672-5182, 2015 14 (6): 931-940
[9]H.Yu,H.Yu^*, L.Wang, L.Kuang, H.Wang, Y.Ding, S.Ito, J.Lawen, 2017: Tidal propagation and dissipation in the Taiwan Strait.Cont.Shelf Res., 136, 57-73, doi:10.1016/j.csr.2016.12.006.
[10]H.Yu, Lu W, Liang K, et al., 2016:Estimation of Annual Energy Output from BCM Tidal Barrage and the Corresponding Marine Environmental Impact.Journal of Ocean University of China, 15, 2, 209-218.
[11]H.Wu, H.Yu, Ding J, et al., 2016:Modeling assessment of tidal current energy in the Qiongzhou Strait, China. Acta Oceanol. Sin., 35, 1, 21-29.
[12]Q. Yue, M. Zhao,H. Yu, et al., 2016:Total quantity control and intensive management system for reclamation in China. Ocean & Coastal Management, 120, 64-69.
[13]H. Yu, et. al, 2015: A numerical study on the circulation and tide in a zigzag bay.Acta Oceanol. Sin., 34, 1, 1-10.
[14]H. Yu,H. Yu^*, Y. Ding, L. Wang, L. Kuang, 2015: On M₂tidal amplitude enhancement in the Taiwan Strait and its asymmetry in the cross-strait direction. Cont.Shelf Res., 109, 198-209, doi:10.1016/j.csr.2015.09.005.
[15]J. Lawen, H. Yu, et. Al., 2013: New Unstructured Mesh Water Quality Model for Cooling Water Biocide Discharges, Environ Model Assess,doi:10.1007/s10666-013-9370-6.
[16]J. Lawen,H. Yu, et. Al., 2012: New unstructured mesh water quality model for coastal discharges, Environmental Modelling & Software,doi: 10.1016/j.envsoft.2012.08.005.
[17]Y. Ding, X. Bao,H. Yu, L. Kuang, 2012: A numerical study of the barotropic tides and tidal energydistribution in the Indonesian seas with the assimilated finitevolume coastal ocean model. Ocean Dynamics,doi:10.1007/s10236-011-0518-0.
[18]Y. Ding, H. Yu^*, X. Bao, et.al., 2011: Barotropic responses of the East China Sea to a rapidly moving typhoon. Ocean Dynamics,doi: 10.1007/s10236-011-0436-1.2011.5.
[19]H. Yu, X. Chen, X. Bao, T. Pohlmann, D. Wu, 2010: A Novel High Resolution Model withoutOpen Boundary Conditions Applied to the China Seas: First Investigation on Tides. Acta Oceanol. Sin., Vol. 29, No. 6,1-14.
[20]H. Yu, X. Bao, C. Lv et. al., 2009: Analyses of the long-term salinity variability in the Bohai Sea and the Northern Yellow Sea. Acta Oceanol. Sin., Vol. 28, No. 5,1-8.
[21]L. Kuang, H. Yu*,et. al. A review on quantitative analysis of suspended sediment concentrations. Marine Science Bulletin, 2011, Vol. 13 No. 2
[22]X. Li, X. Sun, H. Yu, X. Bao. Numerical Study of the Donghai Dam Impact on the Hydrodynamic Environment of Zhanjiang Bay. 2010, Vol. 12 No. 1
[23]Z. Gao, S. Han, K. Liu, Y. Zheng,H. Yu. Numerical Simulation of the Influence of Mean Sea Level Rise on Typhoon Storm Surge in the East China Sea. 2008, Vol. 10 No. 2
[24]侯放，于华明*，鲍献文，武贺. 舟山群岛海域潮流能数值估算与分析. 太阳能学报，第35卷第1期，2014.1
[25]郑晨，于华明，宋彦，王璐，于海庆. 瓯飞围海潮汐电站能量估算及环境影响研究. 太阳能学报, 第38卷 第7期, 2017.7
[26]于华明, 鲍献文,朱学明,陈学恩,吴德星. 夏季北黄海南部定点高分辨率实测海流分析.海洋学报, 第30卷 第4期, 2008.7
[27]宋箐阳，于华明，陈学恩等. 卫星高度计数据样本大小对潮汐信息提取的影响. 中国海洋大学学报,第44卷第５期, 2014.5
[28]褚芹芹，于华明*，鲍献文. 基于全球海洋模型GOCTM的海啸传播过程数值模拟—以2004印尼大海啸为例. 海洋学报, 第35卷第3期, 2013.5
[29]于华明, 鲍献文等，利用有限体积模型对狭长海湾填海优选方案的研究. 海岸工程, 第28卷第2期, 2009.6
[30]孙龙，于华明等. 东中国海及毗邻海域海面风场季节及年际变化特征分析. 海洋预报，第27卷 第2期，2010.4
[31]宋威娇，于华明^*等. 威海海上风电场海流与海冰特征分析. 海洋湖沼通报, 2012, DOI:10.13984/j.cnki.cn37-1141.2012.04.001
[32]宋德海, 于华明,鲍献文. 东中国海及毗邻海域SST年际变化特征分析. 中国海洋大学学报, 第3 7卷增刊, 2007.7
[33]吕婷，苏博，王佳莹，靳洋，何鑫，于华明，马元庆. 海洋工程影响下莱州湾海域水动力环境变化特征. 海洋环境科学, 第36卷第4期, 2017.8
[34]陈金瑞, 陈学恩, 于华明, 闫运伟, 单士亮, 赵健. 胶州湾潮汐潮流高分辨率数值模拟研究. 中国海洋大学学报, 第41卷第7/8期, 2011.7
[35]于晓杰, 娄安刚, 张学庆, 于华明. 基于FVCOM的渤、黄海M₂分潮的数值模拟. 中国海洋大学学报, 第40卷增刊, 2010.10
[36]高佳, 陈学恩,于华明,Ming Li. 黄河口海域潮汐、潮流、余流、切变锋数值模拟. 中国海洋大学学报. 第40卷增刊, 2010.10
[37]吕翠兰, 鲍献文, 吴德星, 陈学恩, 于华明. 渤海和北黄海冬季盐度变化的年代际及年际特征分析. 中国海洋大学学报, 第39卷 增刊, 2009.9
[38]李希彬, 鲍献文, 马超, 于华明. 东海大堤对湛江湾水动力环境影响的研究. 中国海洋大学学报, 第39卷增刊，2009.9
[39]曲大鹏, 吕新刚,于华明. 粘性-地形修正项对潮汐数值模拟影响的研究. 海洋科学进展, 第29卷第3期, 2011.7
[40]高坤, 陈学恩, 于华明, 张舒文. 内潮对吕宋海峡地转流动力计算的影响. 中国海洋大学学报, 第40卷第2期, 2010.2
[41]侯雪燕，洪阳，张建民，邹亚荣，石晓勇，任力波，程晓，张彪，于华明，郭振华，崔要奎. 海洋大数据：内涵、应用及平台建设.海洋通报, 第36卷第4期, 2017.8
专利软件：
l国家授权专利
[1] 于华明，陈学恩. 全球海洋三角形网格的构建方法，2011.7，中国，ZL 2008 1 **.9
[2] 于华明，鲍献文等. 一种海水沿输水管输送过程中冷量损失的测量方法，2012.6，中国，ZL 2012 1 **.6
[3] 鲍献文，于华明. 黄海冷水团规模化综合利用系统，2013.3，中国，ZL 7.6
l软件著作权
[1] 于华明. 海洋环境预报信息查询与可视化系统，2014.01，中国，2014SR126337
[2] 于华明等. 海洋大数据平台软件，2016.09，中国，2016R11L534259


专著:
[1] 于华明，刘容子等.海洋可再生能源发展现状与展望. 中国海洋大学出版社， ISBN:978-7-5670-0191-6, 2012.12.
[2] 鲍献文，于华明等. 福建省海湾数模与环境研究，海洋出版社. ISBN:978-7-5027-8230-6, 2012.3.
[3] 鲍献文，乔璐璐，于华明. 福建省海湾围填海规划水动力影响评价. 科学出版社. ISBN: 84, 2008.9.
[4] 张学超，胡红智，刘营，于华明等. 威海市葡萄滩海域水动力调查及岸滩冲於对策措施研究. 中国海洋大学出版社. ISBN:978-7-5670-1006-2, 2015.9.
[5] L. Kuang, H. Yu, H. Kuang. Data Assimilation Methodology and Validation in Ocean Model. LAMBERT.
科研奖励：
[1]我国东部海区海洋动力环境关键过程及其精细化数值模拟与应用研究，海洋工程科学技术奖一等奖，国家海洋局，2014-01-01。
[2]“中国近海重点区域海洋能资源评估技术研究与应用”获得海洋科学技术奖二等奖。
[3]“威海市区海洋空间资源区划及调查项目”获得中国地理信息产业优秀工程铜奖。
[4]“海上风电运维海洋环境保障”获得2018海上风电优秀运维奖。
[5]山东省优秀博士毕业生。


学术兼职：
英国利物浦大学荣誉教授
德克萨斯农工大学（卡塔尔分校）助理研究员
中国高科技产业研究会海洋分会理事
青岛市科技信息学会理事
自然资源部二所海星****
广东省海洋工程装备技术研究所技术专家


讲授课程：
本科：海洋调查方法
研究生：海洋资料的分析与获取


研究兴趣：
潮汐与海浪；数据同化；海洋动力-生态-渔业资源耦合数值模拟；业务海洋学；海洋调查；海洋可再生能源。

Huaming Yu



Associate Professor
College of Oceanic and Atmospheric Sciences
Ocean University of China
238 Songling Rd, Qingdao 266100, China
Tel: +86-
Email: hmyu@ouc.edu.cn
Education
09/2001-06/2005, B.S. in Marine Science, Ocean University of China, minor in Computer Science and Technology
09/2005-06/2008, M.S. in Physical Oceanography, Ocean University of China
09/2008-06/2010, Ph.D. in Physical Oceanography, Ocean University of China
11/2008-09/2010, Joint Ph.D. candidate, Hamburg University
EMPLOYMENT
07/2010-12/2014, Lecture, Ocean University of China
01/2015-present, Associate Professor, Ocean University of China
Major PROJECTS
[1]09/2019-12/2020, National Key Research and Development Program ‘The Development of Global High -Resolution Wave Reanalysis Product’ (2016YFC**), 2180k, PI
[2]01/2015-12/2017, National Natural Science Foundation of China project‘Global Ocean Tidal Flux and Dissipation’ (**),240k, PI
[3]05/2016-12/2018, Science and Technology Innovation Strategy project‘Collection and Translation of German Science and Technology Projects’ (ZLY**), 80k, PI
[4]09/2011-08/2013, Marine Renewable Energy Special Project‘The Investigation and The pre-feasibility study on the Site of the Bachimen Tidal Power Station in Shacheng Port, Fujian Province’ (GHME2011ZC03), 5000k, PI
[5]06/2015-11/2015,Technology service project‘Investigation on Marine Environment and Resources in Weihai City’ (**), 2011k, PI
[6]11/2014-11/2016, Technology service project‘Marine Environment Forecast System of Dongying City’ (**), 1300k, PI
[7]06/2015-12/2017, Technology service project‘Assessment of the Marine Environment Impact of the Rushankou Bridge’, 1100k, PI
[8]12/2015-04/2016, Technology service project‘Ecosystem Monitoring and Evaluation of Kongdong Islands’ (**), 1010k, PI
[9]9/2017-9/2018, Global Change Project ‘Ocean surface wave reanalysis’, 800k, PI
[10]4/2015-5/2016, Technology service project‘Ocean survey of Weihai Bay’, 500k, PI
[11]6/2015-9/2017, Technology service project‘Analyses of Rushan Bridge impact on the ocean’, 800k，PI
[12]1/2014-12/2015, Marine Renewable Energy Special Project‘Marine renewable energy service platform’,500k, PI
[13]3/2016-3/2017, Technology service project‘Analyses of fish port impact on the ocean park of Rizhao City’, 500k，PI
[14]6/2011-6/2013, Technology service project‘Tidal energy modeling’, 470k，PI
[15]12/2015-12/2017, Technology service project‘Analyses of Jiahe Bridge impact on the ocean’, 800k，PI
[16]12/2011-12/2014, Marine Renewable Energy Special Project‘Ocean stream energy system study’,200k
REFEREED PUBLICATIONS
[1]H.Yu*,J. Li, et. al. A global high-resolution ocean wave model improved by assimilating the satellite altimeter signifificant wave height. Int J Appl Earth Obs Geoinformation, 70, 2018, 43-50, https://doi.org/10.1016/j.jag.2018.03.012
[2]D.Qu, H.Yu*,et. al.Numerical study on the summertime patches of red tide in the adjacent seaof the Changjiang (Yangtze) River Estuary, China. Marine Pollution Bulletin, 143, 2019, 242-255, https://doi.org/10.1016/j.marpolbul.2019.04.027
[3]X. Yu, S. Zhang, J. Li, L. Lu, Z. Liu, M. Li, H. Yu, G. Han, X. Lin,L. Wu, and P. Chang. A Multi-Timescale EnOI-Like High-EffificiencyApproximate Filter for Coupled ModelData Assimilation. Journal of Advances in Modeling Earth System, 2018, 10.1029/2018MS001504
[4]Z.Wang, S.Li, S.Dong, K.Wu*, H.Yu, et. al. Extreme wave climate variability in South China Sea. Int J Appl Earth Obs Geoinformation, 73, 2018, 586-594, https://doi.org/10.1016/j.jag.2018.04.009
[5]X.Liu, J.Wang, Y.Zhang, H.Yu, et. al. Comparison between two GAMs in quantifying the spatial distribution of Hexagrammos otakii in Haizhou Bay, China. Fisheries Research, 218, 2019, 209-217, https://doi.org/10.1016/j.fifishres.2019.05.019
[6]W.Li,M.Wang,G.Burgaud, H.Yu,L.Cai. Fungal Community Composition and Potential Depth-Related Driving Factors Impacting Distribution Pattern and Trophic Modesfrom Epi- to Abyssopelagic Zones of the Western Pacific Ocean.Microbial Ecology.https://doi.org/10.1007/s00248-019-01374-y
[7]Y.Xue, K.Tanaka, H.Yu, et. al. Using a new framework of two-phase generalized additive models to incorporate prey abundance in spatial distribution models of juvenile slender lizardfish in Haizhou Bay, China.MARINE BIOLOGY RESEARCH, 2018,https://doi.org/10.1080/**.2018.**
[8]M. Bao, X. Bao, H. Yu, Y. Ding. Tidal Characteristics in the Wenzhou Offshore Waters and Changes Resulting from the Wenzhou Shoal Reclamation Project.J. Ocean Univ. China (Oceanic and Coastal Sea Research), DOI 10.1007/s11802-015-2498-z, ISSN 1672-5182, 2015 14 (6): 931-940
[9]H.Yu,H.Yu^*, L.Wang, L.Kuang, H.Wang, Y.Ding, S.Ito, J.Lawen, 2017: Tidal propagation and dissipation in the Taiwan Strait.Cont.Shelf Res., 136, 57-73, doi:10.1016/j.csr.2016.12.006.
[10]H.Yu, Lu W, Liang K, et al., 2016:Estimation of Annual Energy Output from BCM Tidal Barrage and the Corresponding Marine Environmental Impact.Journal of Ocean University of China, 15, 2, 209-218.
[11]H.Wu, H.Yu, Ding J, et al., 2016:Modeling assessment of tidal current energy in the Qiongzhou Strait, China. Acta Oceanol. Sin., 35, 1, 21-29.
[12]Q. Yue, M. Zhao,H. Yu, et al., 2016:Total quantity control and intensive management system for reclamation in China. Ocean & Coastal Management, 120, 64-69.
[13]H. Yu, et. al, 2015: A numerical study on the circulation and tide in a zigzag bay.Acta Oceanol. Sin., 34, 1, 1-10.
[14]H. Yu,H. Yu^*, Y. Ding, L. Wang, L. Kuang, 2015: On M₂tidal amplitude enhancement in the Taiwan Strait and its asymmetry in the cross-strait direction. Cont.Shelf Res., 109, 198-209, doi:10.1016/j.csr.2015.09.005.
[15]J. Lawen, H. Yu, et. Al., 2013: New Unstructured Mesh Water Quality Model for Cooling Water Biocide Discharges, Environ Model Assess,doi:10.1007/s10666-013-9370-6.
[16]J. Lawen,H. Yu, et. Al., 2012: New unstructured mesh water quality model for coastal discharges, Environmental Modelling & Software,doi: 10.1016/j.envsoft.2012.08.005.
[17]Y. Ding, X. Bao,H. Yu, L. Kuang, 2012: A numerical study of the barotropic tides and tidal energydistribution in the Indonesian seas with the assimilated finitevolume coastal ocean model. Ocean Dynamics,doi:10.1007/s10236-011-0518-0.
[18]Y. Ding, H. Yu^*, X. Bao, et.al., 2011: Barotropic responses of the East China Sea to a rapidly moving typhoon. Ocean Dynamics,doi: 10.1007/s10236-011-0436-1.2011.5.
[19]H. Yu, X. Chen, X. Bao, T. Pohlmann, D. Wu, 2010: A Novel High Resolution Model withoutOpen Boundary Conditions Applied to the China Seas: First Investigation on Tides. Acta Oceanol. Sin., Vol. 29, No. 6,1-14.
[20]H. Yu, X. Bao, C. Lv et. al., 2009: Analyses of the long-term salinity variability in the Bohai Sea and the Northern Yellow Sea. Acta Oceanol. Sin., Vol. 28, No. 5,1-8.
[21]L. Kuang, H. Yu*,et. al. A review on quantitative analysis of suspended sediment concentrations. Marine Science Bulletin, 2011, Vol. 13 No. 2
[22]X. Li, X. Sun, H. Yu, X. Bao. Numerical Study of the Donghai Dam Impact on the Hydrodynamic Environment of Zhanjiang Bay. 2010, Vol. 12 No. 1
[23]Z. Gao, S. Han, K. Liu, Y. Zheng,H. Yu. Numerical Simulation of the Influence of Mean Sea Level Rise on Typhoon Storm Surge in the East China Sea. 2008, Vol. 10 No. 2
patentS&copyrightS
PATENTS
[1] H.Yu, X. Chen,. Construction Method of Global Ocean Unstructured Mesh，2011.7，China, ZL 2008 1 **.9
[2] H.Yu, X. Bao, et al.A Method for Measuring Cold Loss in the Process of Transport of Seawater along Water Pipeline,2012.6, China, ZL 2012 1 **.6
[3] X. Bao, H.Yu. Comprehensive Utilization System of Yellow Sea Cold Water Mass Scale, 2013.3, China, ZL 2.6
COPYRIGHT
[1] H.Yu. Marine Environment Forecast Information Query and Visualization System, 2014.01, China,2014SR126337
[2] H.Yu, et al. Marine Big Data Platform Software, 2016.09, China, 2016R11L534259
Awards
[1]Wu, D., X. Chen, X. Bao, X. Lin, J. Song, C. Ma, X. Han, H. Yu, L. Qiao, P. Zheng, and G. Wang, 2015: Study on the key processes of ocean dynamic environment in the East China Sea and their fine numerical simulations and applications, First prize of Science and Technology Award of China Association of Oceanic Engineering, 2014-01-01.
[2]Chinese offshore marine renewable energy assessment, Secondprize of Science and Technology Award of Ocean,China.
[3]Ocean Survey and Analysis on Weihai offshore, Geographic Information Industry Excellent Engineering Bronze Award, China
[4]2018 Offshore Wind Power Excellent Operation and Maintenance Award
[5]H. Yu，Outstanding Doctoral Students in Shandong Province, Shandong Provincial Bureau of Education, 2010.
Courses
Undergraduate: Marine Surveyand Observation
Postgraduate: Analysis and Acquisition of Marine Data
Research Interests
Numerical and theoretical studies of ocean tide and wave;
Numerical modelingof marine ecosystem and fisheryresources;
Assessment of the marine renewable energy resources;
Ocean Survey;
Operational Oceanography.