王喜冬

發布時間:2017-09-07浏覽次數:11566

王喜冬,男,教授,博士學位,博士生導師

(Emailxidong_wang@hhu.edu.cn

簡介:

主要從事海氣相互作用與海洋動力學的基礎和應用研究,近年來發表論文論著70餘篇。研究成果被Nature、PNAS、Nature Climate Change、Nature Communications、Reviews of Modern Physics等國際高水平SCI期刊引用,相關研究被Nature News報道評述,并獲上海海洋科學技術獎、海洋工程科學技術獎、海洋科學技術獎等5項。

創新性成果主要包括:(1)提出了海盆-跨海盆尺度海氣相互作用調制熱帶氣旋強度低頻變異的新機制,定量評估了熱帶氣旋對西北太平洋和南海大尺度環流和熱輸運的影響;(2)首次提出了鹽度障礙層能夠支持熱帶氣旋強化的觀點,闡明了鹽度障礙層與極端天氣氣候事件的相互作用機理;(3)提出了新的海洋數據同化方法,與合作者合作建立了海洋三維溫鹽流實況分析、再分析和預報業務系統。研究成果為改善熱帶氣旋、氣候和海洋環流預測能力提供了新的思路,并已應用于多家業務保障部門,在國防安全和防災減災中發揮了重要作用。

教育經曆:

        2006/09 – 2011/06,中科院南海海洋研究所,物理海洋專業,研究生/博士

        2003/09 – 2006/07,國家海洋局第二海洋研究所,物理海洋專業,研究生/碩士

        1996/09 – 2000/07,吉林大學,理學院工程力學專業,本科/學士

科研與學術工作經曆:

        2016/05 –今,河海大學,伟德国际1916备用网址,教授

        2015/12 – 2016/04,國家海洋信息中心,國家海洋局海洋環境信息保障技術重點實驗室,研究員

        2012/12 – 2013/12,邁阿密大學/美國國家海洋大氣局大西洋海洋與大氣實驗室,訪問學者

        2011/10 – 2015/11,國家海洋信息中心,國家海洋局海洋環境信息保障技術重點實驗室,副研究員

        2010/11 – 2011/09,國家海洋信息中心,國家海洋局海洋環境信息保障技術重點實驗室,助理研究員

        2008/11 – 2010/10,國家海洋信息中心,環境評價預報部,助理研究員

        2006/07 – 2008/10,國家海洋信息中心,環境評價預報部,研究實習員

研究興趣:

        熱帶氣旋與海洋的相互作用;大洋環流與氣候變化;海洋動力學;海洋數據同化;人工智能海洋學

主講課程:

        高等海洋動力學;區域海洋學

代表性論著5篇,*為通訊作者):

  1. Wang Chunzai*, Wang Xidong*, Weisberg Robert H., Black Michael L., 2017. Variability of Tropical Cyclone Rapid Intensification in the North Atlantic and Its Relationship with Climate Variations. Climate Dynamics, 49: 3627–3645, doi:10.1007/s00382-017-3537-9.(發現在全球變暖的背景下北大西洋熱帶氣旋迅速強化事件并沒有長期增多的趨勢,揭示了北大西洋熱帶氣旋迅速強化事件低頻變異機制,研究被Nature News報道評述,并被Nature communications等高水平SCI期刊引用)

  2. Wang Xidong*, Liu Hailong, 2016. PDO Modulation of ENSO Effect on Tropical Cyclone Rapid Intensification in the Western North Pacific. Climate Dynamics, 46(1-2), 15-28, DOI: 10.1007/s00382-015-2563-8.(提出了PDO在年代際尺度上調制ENSO振幅的新機制,解釋了ENSO與西北太平洋熱帶氣旋迅速強化事件之間的關系存在年代際變異的機理,被Nature communications等高水平SCI期刊引用)

  3. Wang Xidong*, Wang Chunzai, Zhang Liping, Wang Xin, 2015. Multi-decadal Variability of Tropical Cyclone Rapid Intensification in the Western North Pacific. Journal of Climate, 28, 3806-3820, DOI: 10.1175/JCLI-D-14-00400.1.(揭示了PDO對西北太平洋熱帶氣旋迅速強化的調制機理,被Nature等高水平SCI期刊引用)

  4. Wang Xidong*, Wang Chunzai, Han Guijun, Li Wei, Wu Xinrong, 2014. Effects of Tropical Cyclones on Large-Scale Circulation and Ocean Heat Transport in the South China Sea. Climate Dynamics, 43(12), 3351-3366, DOI: 10.1007/S00382-014-2109-5. (定量評估了熱帶氣旋對南海大尺度環流和熱輸運的影響,明确了熱帶氣旋的熱泵和冷抽吸效應在南海環流中的重要角色,被美國科學院院刊(PNAS)等高水平SCI期刊引用)

  5. Wang Xidong*, Han Guijun, Qi Yiquan, Li Wei, 2011. Impact of barrier layer on typhoon-induced sea surface cooling, Dynamics of Atmospheres and Oceans, 52(3), 367-385. (首次提出鹽度障礙層能夠支持熱帶氣旋強化的觀點,被美國科學院院刊(PNAS)等高水平SCI期刊引用)

其他論文論著*為通訊作者):

  1. Chen Zhiqiang, Xidong Wang*, Haijin Cao, Xiangzhou Song, 2024. Mapping High-Resolution Surface Current by Incorporating Geostrophic Equilibrium with Surface Quasigeostrophic Theory Using Multi-Source Satellite Observations, Remote Sensing of Environment (accepted)

  2. Chen Zhiqiang, Xidong Wang, Xiangyu Wu, Yuan Cao, Zikang He, Dakui Wang, Jian Chen, 2024. Three-dimensional thermohaline structure estimation derived from HY-2 satellite data over the Maritime Silk Road and its applications, Acta Oceanologica Sinica (accepted)  

  3. Pang Shanshan, Xidong Wang*, Jérôme Vialard, 2023. How well do CMIP6 models simulate salinity barrier layers in the North Indian Ocean? Journal of Climate, DOI: 10.1175/JCLI-D-23-0366.1

  4. Chen Zhiqiang, Wang Xidong*, Liu Lei, Wang Xiaoting, 2023. Estimating three-dimensional structures of eddy in the South Indian Ocean from the satellite observations based on the isQG method, Earth and Space Science, DOI: 10.1029/2023EA002991

  5. Li Na, Zhu Xueming, Wang Hui, Zhang Shouwen, Wang Xidong, 2023. Intraseasonal and interannual variability of sea temperature in the Arabian Sea Warm Pool, Ocean Science, 19, 1437–1451, DOI:https://doi.org/10.5194/os-19-1437-2023  

  6. Chen Jiao, Wang Xidong*, Wang Xuezhu, Semmler Tido, 2023. Leading Role of outer-Arctic Circulation Transport in AMOC Response to Global Warming over a Century. Environmental Research Letters,  http://iopscience.iop.org/article/10.1088/1748-9326/acfb25

  7. Shi Yuxin, Liu Hailong, Wang Xidong, 2023. Responses of the Southern Ocean Mixed Layer Depth to Two-type El Niño Events during Austral Winter, Acta Oceanologica Sinica (accepted)

  8. Zhang Xiaoshuang, Wang Bin*, Wang Xidong*, Zhu Xiande, Wu Baoqin, Sun Chunjian, 2023. Interannual and decadal variations of the Kuroshio axis in the East China Sea Journal of Physics Conference Series, 2486(1):012001DOI:10.1088/1742-6596/2486/1/012001

  9. Zhang Jiali, Zhang Xuefeng, Wang Xidong, Pengfei Ning, Anmin Zhang, 2023. Reconstructing 3D ocean subsurface salinity (OSS) from T-S mapping via a data-driven deep learning model, Ocean Modelling, https://doi.org/10.1016/j.ocemod.2023.102232

  10. Zhang Jiali, Ning Pengfei, Zhang Xuefeng*, Wang Xidong*, Zhang Anmin, 2023. Deriving sea subsurface temperature fields from satellite remote sensing data using a generative adversarial network model, Earth and Space Science, 10, e2022EA002804, https://doi.org/10.1029/2022EA002804

  11. Ge Zhicheng, Wang Xuezhu*, Wang Xidong, 2023. Evaluation of the Arctic Sea-ice Simulation on SODA3 Datasets, Advances in Atmospheric Sciences, https://doi.org/10.1007/s00376-023-2320-6

  12. Li Xinyu, Lu Riyu, Wang Xidong, 2023. Effect of Large-scale Circulation Anomalies on Summer Rainfall over the Yangtze River Basin: Tropical vs. Extratropical. Journal of Climate, https://doi.org/10.1175/JCLI-D-22-0717.1

  13. Fan Kaigui, Wang Xidong*, Liu Juan, Shao Caixia, 2023. Spatiotemporal Variability of Tropical Cyclone Induced Ocean Heat Uptake and Its Effect on Ocean Heat Content, Journal of Climate, https://doi.org/10.1175/JCLI-D-22-0595.1.

  14. Yang Yingyue, Liu Hailong, Wang Xidong, 2023. Temporal and spatial variation characteristics of Antarctic sea ice and the causes of its record decline during 2015–2016: a review, Advances in Polar Science, 34(1) 5-16, doi: 10.13679/j.advps.2022.0022

  15. Ma Xiao, Liu Hailong, Wang Xidong, 2023. Interannual Variability of Barrier Layer in the Tropical Atlantic and Its Relationship with the Tropical Atlantic Modes, Journal of Physical Oceanography, 53, 573–594, DOI: https://doi.org/10.1175/JPO-D-21-0235.1

  16. Sun Chunjian, Zhang Anmin, Jin Baogang, Wang Xidong, Zhang Xiaoshuang, Zhang Lianxin, 2022. Seasonal variability of eddy kinetic energy in the north Indian Ocean, Frontiers in Marine Science, doi: 10.3389/fmars.2022.1032699.

  17. Huang Chaoming, Liu Hailong, Wang Xidong, Li, Hong, Zhang Zhaoru, Zuo Juncheng, Wang Ruyun. 2022, PDO Modulation on the Relationship between ENSO and Typhoon Tracks, Journal of Climate, 35(20), 3103-3120.

  18. Liu Hailong, Song Zhenya, Wang Xidong, Vasu Misra, 2022. An ocean perspective on CMIP6 climate model evaluations, Deep Sea Research Part II: Topical Studies in Oceanography, https://doi.org/10.1016/j.dsr2.2022.105120.

  19. Sun Chunjian, Wang Xidong, Zhang Anmin, Zhang Lianxin, Shao Caixia and Wang Guosong, 2022. Statistical characteristics and mechanisms of mesoscale eddies in the north Indian Ocean. Acta Oceanologica Sinica, doi: 10.1007/s13131-021-1969-x

  20. Zheng Shuheng, Liu Hailong, Wang Xidong, 2022. A robust mode of the winter oceanic mixed layer depth in the North Pacific. Dynamics of Atmospheres and Oceans, 97, 1-14.

  21. Cao Yuan, Wang Xidong*, Shao Caixia, 2022. Global estimate of tropical cyclone-induced diapycnal mixing and its links to climate variability. Journal of Geophysical Research: Oceans, 127, e2021JC017950. https://doi.org/10.1029/2021JC017950

  22. Wang Guosong, Wang Xidong*, Wu Xinrong*, Liu Kexiu, Qi Yiquan, Sun Chunjian, Fu Hongli, 2021. A Hybrid Multivariate Deep Learning Networks for Multistep ahead Sea Level Anomaly Forecasting, Journal of Atmospheric and Oceanic Technology. DOI: https://doi.org/10.1175/JTECH-D-21-0043.1

  23. He Zikang, Wang Xidong*, Wu Xinrong, Chen Zhiqiang, Chen Jian, 2021. Projecting Three‐dimensional Ocean Thermohaline Structure in the North Indian Ocean, from the Satellite Sea Surface Data Based on a Variational Method. Journal of Geophysical Research: Oceans, 126(1).

  24. Chen Zhiqiang, Wang Xidong*, Liu Lei, 2020. Reconstruction of Three-Dimensional Ocean Structure From Sea Surface Data: An Application of isQG Method in the Southwest Indian Ocean. Journal of Geophysical Research: Oceans, 125(6).

  25. Fan kaigui, Wang Xidong*, He Zikang, 2020. Control of salinity stratification on recent increase in tropical cyclone intensification rates over the postmonsoon Bay of Bengal, Environmental Research Letters, 15(9).

  26. Quan Mengyuan, Wang Xidong*, Zhou Guidi, Fan Kaigui, He Zikang, 2020. Effect of winter-to-summer El Niño transitions on tropical cyclone activity in the North Atlantic, Climate Dynamics, 54(3-4): 1683-1698.  

  27. Wang Guosong, Wang Xidong, Wang Hui, Hou Min, Li Yan, Fan Wenjing, Liu Yulong, 2020. Evaluation on monthly sea surface wind speed of four reanalysis datasets over the China seas after 1988, Acta Oceanologica Sinica, 39(1): 83-90.

  28. Pang Shanshan, Wang Xidong*, Liu Hailong, Fan Kaigui, 2019. Decadal Variability of the Barrier Layer and Forcing Mechanism in the Bay of Bengal. Journal of Geophysical Research-oceans, 124(7), 5289-5307, https://doi.org/10.1029/2018JC014918.

  29. Fan Kaigui, Wang Xidong*, Gregory R. Foltz, Karthik Balaguru, 2019. Meridional oscillation in genesis locations of tropical cyclones in the postmonsoon Bay of Bengal, Climate Dynamics, 53(3-4), 2103–2118, DOI: 10.1007/s00382-019-04794-1.  

  30. Wang Xidong*, Wang Xin, and Chu Peter C., 2018. Air-sea interactions during rapid intensification of typhoon Fengshen (2008). Deep Sea Research Part I, 140: 63-77, https://doi.org/10.1016/j.dsr.2018.08.009

  31. Wang Xidong, 2018. Typhoon and Sea Surface Cooling. Book Chapter: Exploring Natural Hazards: A Case Study Approach edited by Dr. Bartlett, D. (Ed.), Singh, R. (Ed.),Taylor and Francis publisher. New York: Chapman and Hall/CRC.

  32. Wang Xidong*, Liu Hailong, and Gregory R. Foltz, 2017. Persistent influence of tropical North Atlantic wintertime sea surface temperature on the subsequent Atlantic hurricane season, Geophysical Research Letters, 44, doi:10.1002/2017GL074801.

  33. Wang Chunzai*, Wang Xidong*, Weisberg Robert H., Black Michael L., 2017. Variability of Tropical Cyclone Rapid Intensification in the North Atlantic and Its Relationship with Climate Variations. Climate Dynamics, 49: 3627–3645 doi:10.1007/s00382-017-3537-9.

  34. Wang Xidong*, Liu Hailong, 2016. Seasonal-to-interannual Variability of the Barrier Layer in the Western Pacific Warm Pool Associated with ENSO. Climate Dynamics, 47(1-2), 375–392. DOI: 10.1007/s00382-015-2842-4.  

  35. Wang Xidong*, Liu Hailong, 2016. PDO Modulation of ENSO Effect on Tropical Cyclone Rapid Intensification in the Western North Pacific. Climate Dynamics, 46(1-2), 15-28, DOI: 10.1007/s00382-015-2563-8.

  36. Wang Xidong*, Wang Chunzai, Zhang Liping, Wang Xin, 2015. Multi-decadal Variability of Tropical Cyclone Rapid Intensification in the Western North Pacific. Journal of Climate, 28, 3806-3820, DOI: 10.1175/JCLI-D-14-00400.1.  

  37.  Li Xuewei, Xidong Wang*, Peter C Chu, Zhao Dongliang, 2015. Low Frequency Variability of the Yellow Sea Cold Water Mass Identified from the China Coastal Waters and Adjacent Seas Reanalysis. Advances in Meteorology, DOI: 10.1155/2015/269859.  

  38.  Zhang Xiaoshuang, Wang Xidong*, Cao Yingzhi, Zhang Lianxin, et al., 2015. Climate modulation on sea surface height in China Seas. Chinese Journal of Oceanology and Limnology, 33(5), 1245-1255, DOI: 10.1007/s00343-015-4120-z.  

  39. Wang Xidong, Wang Chunzai, Han Guijun, Li Wei, Wu Xinrong, 2014. Effects of Tropical Cyclones on Large-Scale Circulation and Ocean Heat Transport in the South China Sea. Climate Dynamics, 43(12), 3351-3366, DOI: 10.1007/S00382-014-2109-5.

  40. Fu Hongli, Wang Xidong*, Peter C. Chu, Zhang XueFeng, Han Guijun, Li Wei, 2014. Tropical Cyclone Footprint in the Ocean Mixed Layer observed by Argo in the Northwest Pacific, 119, 8078-8092, Journal of Geophysical Research: Oceans, DOI:10.1002/2014JC010316.  

  41. Wang Xidong, Han Guijun, Li Wei, Wu Xinrong, Zhang Xuefeng, 2013. Salinity Drift of Global Argo Profiles and Recent Halosteric Sea Level Variation. Global and Planetary Change, 108, 42-55, DOI:10.1016/j.gloplacha.2013.06.005.  

  42. Wang Xidong, Li wei, Qi Yiquan, and Han Guijun, 2012. Heat, salt and volume transport by eddies in the vicinity of the Luzon strait, Deep Sea Research, Part Ι, 61, 21-33.  

  43. Wang Xidong, Peter C Chu, Han Guijun, Li Wei, Zhang Xuefeng, Li Dong, 2012. A fully conserved minimal adjustment scheme with (T, S) coherency for stabilization of hydrographic profiles, Journal of Atmospheric and Oceanic Technology, 29, 1854-1865.  

  44. Wang Xidong, Han Guijun, Qi Yiquan, Li Wei, 2011. Impact of barrier layer on typhoon-induced sea surface cooling, Dynamics of Atmospheres and Oceans, 52(3), 367-385.  

  45. Wang Xidong, Xu Dongfeng, Xu Xiaohua, 2008. Incremental 4-DVAR Assimilation Scheme Based on Lorenz Model. Acta Oceanologica Sinica. 27(z1), 93-100.  

  46. Sun Chunjian, Wang Xidong, Cui Xiaojian, Zhang Xiaoshuang, et al, 2015. Satellite-derived upper ocean thermal structure and its application on the tropical cyclone intensity forecast in the Indian Ocean. Chinese Journal of Oceanology and Limnology, DOI: 10.1007/s00343-015-4114-x.  

  47. Song Yajuan, Wang Lei, Lei Xiaoyan, Wang Xidong, 2015. Tropical Cyclone Genesis index over the Western North Pacific simulated by CMIP5 Models, Advances in Atmospheric Sciences, Doi: 10.1007/s00376-015-4162-3.

  48. Zhang Lianxin, Zhang xuefeng, Han Guijun, Wu Xinrong, Cui XiaoJian, Shao Caixia, Sun Chunjian, Zhang Xiaoshuang, Wang Xidong, Fu Hongli, 2015. Impact of sea spray on upper ocean temperature during typhoon passage: simulated with a 1-D turbulent model, Chinese Journal of Oceanology and Limnology, 33(5), 1164-1180, DOI: 10.1007/s00343-015-4125-7.  

  49. Zhang Xuefeng, Han Guijun, Wang Xidong, Zhang Lianxin, 2014. Effects of Stokes production on summer ocean shelf dynamics, Acta Oceanologica Sinica, 33(1), 24-34.  

  50. Wu Xinrong, Li Wei, Han Guijun, Zhang Shaoqing, Wang Xidong, 2014. A compensatory approach of the parameteric localization in EnKF. Monthly Weather Review, 142, 3713-3733, DOI: 10.1175/MWR-D-13-00369.1.  

  51. Fu Hongli, Li Wei, Zhang Xuefeng, Han Guijun, Wang Xidong, Wu Xinrong and Zhang Lianxin, 2014. A study of transport paths and the impact strength of Fukushima nuclear pollutants in the North Pacific surface, Journal of Ocean University of China, 13(2): 183-190.  

  52. Han Guijun, Li Wei, Zhang Xuefeng, Wang Xidong, Wu Xinrong, Fu Hongli, Zhang Xiaoshuang, Zhang Lianxin and Li Dong, 2013. A new version of regional ocean reanalysis for coastal waters of China and adjacent seas, Advances in Atmospheric Sciences, 30(4), 974-982, doi:10.1007/s00376-012-2195-4.  

  53. Han Guijun, Fu Hongli, Zhang Xuefeng, Wei Li, Wu Xinrong, Wang Xidong,  Zhang Lianxin, 2013. A global ocean reanalysis product in the project of China ocean reanalysis (CORA). Advances in Atmospheric Sciences. 30(6), 1621-1631, doi: 10.1007/s00376-013-2198-9.  

  54. Han Guijun, Li Wei, Fu HongLi, Zhang Xuefeng, Wang Xidong, Wu Xinrong, Zhang Lianxin, 2012. An ensemble estimation of impact times and strength of Fukushima nuclear pollution to the east coast of China and the west coast of America, Science China-Earth Sciences, 56(8), 1447-1451, doi: 10.1007/s11430-012-4520-2.  

  55. Han Guijun, Li Wei, Zhang Xuefeng, Li Dong, He Zhongjie, Wang Xidong, Wu Xinrong, Yu Ting, Ma Jirui, 2011. A regional ocean reanalysis system for China coastal waters and adjacent seas, Advances in Atmospheric Sciences, 28(3), 682-690.  

  56. Han Guijun, Li Wei, Zhang Xuefeng, Li Dong, He Zhongjie, Wang Xidong, Wu Xinrong, Ma Jirui, Yu Ting, 2009. Development of a regional ocean reanalysis system in the China seas. EGU General Assembly 2009, 11, EGU2009-6528.  

  57. 李佳昊,王桂華,王喜冬,陳志強. 2021年10月南海北部上層海洋細結構對台風“圓規”的響應分析.海洋通報,2022, 41(4):411-418.

  58. 聶旺琛,王喜冬*,陳志強,何子康,範開桂. 基于神經網絡的全球三維溫鹽場重構技術研究.熱帶海洋學報,2022,41(2):1-15.

  59. 龐姗姗,王喜冬*,劉海龍,邵彩霞. 熱帶海洋鹽度障礙層多尺度變異機理及其對海氣相互作用的影響研究進展.地球科學進展,2021,36(2):139-153.

  60. 陳姣,範開桂,王喜冬*菲律賓海盆深層溫鹽結構與環流變化特征研究.海洋通報,2021,40(2):142-153.

  61. 何子康,王喜冬*陳志強,範開桂. 利用海洋溫度剖面與海表鹽度反演鹽度剖面方法研究.熱帶海洋學報,2021,40(6):41-51.

  62. 曹力戈,王喜冬,李威,韓桂軍路經南海熱帶氣旋迅速加強的年代際變化.海洋學報,2021,43(5):50–62.

  63. 王國松,王喜冬侯敏,齊義泉,宋軍,劉克修,吳新榮,白志鵬,2020. 基于觀測和再分析數據的LSTM深度神經網絡沿海風速預報應用研究,海洋學報,42(1):67-77.

  64. 吳新榮,王喜冬,李威,韓桂軍,張學峰,付紅麗,李冬,2015. 海洋數據同化與數據融合技術應用綜述.海洋技術學報,2015,34(3):97-103.

  65. 韓桂軍,李威,付紅麗,張學峰,王喜冬吳新榮,張連新,2013. 日本福島核污染對中國和美國近海影響的集合統計預測.中國科學 地球科學, 43(5): 831-835.

  66. 吳新榮,韓桂軍,張學峰,王喜冬2012. 人工神經網絡在南海近海面氣溫反演中的應用研究,熱帶海洋學報,31(2),7-14.

  67. 王喜冬,韓桂軍,李威,齊義泉,2011. 利用衛星觀測海面信息反演三維溫度場,熱帶海洋學報,30(6),10-17.

  68. 李冬,王喜冬,張學峰,吳新榮,李威,韓桂軍,2011. 基于擴散濾波的多尺度三維變分研究,海洋通報,30(2),163-170.

  69. 王喜冬,韓桂軍,Peter C Chu,李威,2011. 台風期間障礙層的形成和變化,Argo研究論文集,海洋出版社,143-154,北京.

  70. 韓桂軍,李冬,李威,張學峰,王喜冬,吳新榮,2011. 海洋多尺度三維變分的基本原理與統一理論框架分析,Argo研究論文集,海洋出版社, 1~16,北京.

  71. 何忠傑,付紅麗,韓桂軍,李自強,李威,王喜冬,吳新榮,馬繼瑞,2011. Argo資料對中國近海及鄰近海域溫度和鹽度預報精度影響研究,Argo研究論文集,海洋出版社, 73-82,北京.

  72. 李冬,劉璟,韓桂軍,張學峰,王喜冬2010. POM海洋模式的并行算法,29(3),329-334.

  73. 何忠傑,韓桂軍,李威,李冬,張學峰,王喜冬,吳新榮,2010. 中國海及鄰近海域衛星觀測資料同化試驗,中國海洋大學學報(自然科學版),40(9),1-7.

  74. 王喜冬,許東峰,徐曉華, 2007. 變分資料同化中不同的變分求解方法,海洋學研究,25(3), 103-111.

主持或參與的主要科研項目:

  1. 國家自然科學基金面上項目:孟加拉灣障礙層的季節内變化及其對海氣相互作用的影響研究41776004,2018/01-2021/12,主持。

  2. 國家自然科學基金面上項目:基于表準地轉理論的衛星觀測海表數據同化方法研究(41376015),2014/01-2017/12,主持。

  3. 中國科學院海洋戰略先導科技專項課題,XDA11010203,海面溫度遙感信息的融合與同化,2017/01-2018/12,主持。

  4.  “全球變化與海氣相互作用”專項國際合作項目“海洋與台風的相互作用”子課題(GASI-IPOVAI-04),2015/01-2019/12,主持。

  5. 國家973計劃課題:台風過程中的海洋多源資料集成與數據同化(2013CB430304),2013/01-2017/08,任務負責人,學術骨幹。

  6. 國家自然科學基金重點項目:海洋再分析中的數據同化問題研究(41030854),2011/01-2014/12,主要完成人。

  7. 國家海洋局青年科學基金項目:基于統計和動力映射法的衛星測高數據同化方法研究(2010211),2010/01-2012/12,主持。

  8. 國家863計劃課題:多元數據融合和數據同化關鍵技術研究(2006AA09Z138),2007/01-2009/12,主要完成人。

  9. 國家自然科學基金面上項目:集合卡爾曼濾波與變分同化的混合數據同化方法研究(40776016),2008/01-2010/12,主要完成人。

  10. 國家自然科學基金面上項目:基于柔性精/信度的多源遙感SST互評估及融合方法的研究(40976108),2010/01-2013/12,參加。

  11. 國家自然科學基金青年基金項目:反演海表粗糙度及波能因子的四維變分數據同化方法研究(41106005),2012/01-2014/12,參加。

  12. 國家自然科學基金青年基金項目:海洋衛星觀測高度異常數據三維變分同化的新方法研究(40906016),2010/01-2012/12,參加。

  13. 國家973計劃課題:Argo數據同化及多源資料再分析(2007CB816001),2007/01-2011/12,參加。

榮譽獎勵:

         2013年度,海洋科學技術獎,二等獎

         2014年度,海洋科學技術獎,二等獎

         2018年度,海洋科學技術獎,二等獎

         2019-2020年度,河海大學精神文明建設先進個人

         2021年度,河海大學優秀碩士論文指導教師

         2022年度,河海大學優秀碩士論文指導教師

         2023年度,河海大學優秀碩士論文指導教師

         2022年度,上海海洋科學技術獎,二等獎

         2022年度,海洋工程科學技術獎,二等獎

學術兼職:

         Deep Sea Research Part II, Guest Editor

         Ocean Land-Atmosphere Research(OLAR), Youth Editor

        中國海洋學會人工智能專業委員會委員

        中國海洋工程咨詢協會海洋預報減災分會常務理事

        江蘇省海洋學會海洋與氣候變化專委會委員

研究生培養:

         2017級:全夢媛(學碩)(畢業後任職于國家海洋信息中心)

                         龐姗姗(學碩)(畢業後于河海大學讀博,于2022年赴法國索邦大學公派訪學交流)

                         陳志強(學碩,轉2019級碩博連讀,于2022年赴德國基爾亥姆霍茲海洋研究所公派訪學交流

         2018級:範開桂(學碩,轉2019級碩博連讀,于2021年赴德國基爾亥姆霍茲海洋研究所公派訪學交流

                         何子康(學碩)(畢業後于河海大學讀博,于2022年赴挪威南森環境與遙感中心公派訪學交流

                        王國松(在職博)(任職于國家海洋信息中心)

         2019級:曹    源(學碩)(畢業後于河海大學讀博)

                         李佳昊(學碩)(畢業後赴複旦大學讀博)

                         聶旺琛(學碩)(畢業後任職于國防科技大學電子科學學院)

         2020級:陳    姣(學碩,轉2021級碩博連讀,于2023年赴德國AWI極地與海洋研究所公派訪學交流

                         葛志成(學碩)(畢業後任職于無錫九方科技有限公司)

                         黎曉威(專碩)(畢業後任職于中國電建集團中南勘測設計研究院有限公司)

                         趙    飛(專碩)(畢業後任職于中國電建集團貴陽勘測設計研究院有限公司)

         2021級:李轶璇(學碩,轉2023級碩博連讀)

                         謝佳君(專碩)、謝佳麗(專碩)、張孟琦(專碩)

         2022級:李    林(學碩)、牛浩然(學碩)、李    洋(專碩)、李金龍(專碩)

         2023級:黎辰婕(學碩)、高振博(專碩)

招生招聘:

   課題組長期招收博士後,每年招收1-2名學術型碩士、1-2名專業型碩士和1-2名博士研究生。歡迎物理海洋學、大氣科學、數學、流體力學、計算機及相關專業背景的同學報考本課題組的碩士和博士研究生。





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