信 息 科 学 与 工 程 学 院

College of Information Science and Engineering

厚德笃志,勤思敏行

基本信息

basic information

  • 所在院系(中心): 海洋技术系
  • 学历: 博士
  • 政治面貌: 中共党员
  • 邮件地址: gechen@ouc.edu.cn
  • 办公电话:
  • 办公室: 山东省青岛市崂山区松岭路238号

陈 戈

Chen Ge

课程介绍

course introduction

卫星海洋遥感、海洋大数据挖掘

教育及工作经历

education and work experience

一、教育经历

学士(1988年): 青岛海洋大学(海洋物理)

硕士(1990年): 青岛海洋大学(海洋遥感)

博士(1993年): 青岛海洋大学、日本东海大学(卫星海洋学)

二、工作经历

1994~1996年: 法国海洋开发研究院(IFREMER) 博士后

1997年~至 今: 中国海洋大学 教 授

1999年~至 今: 中国海洋大学 博士生导师

2004年~至 今: 中国海洋大学信息科学与工程学院 院 长

2004年~至 今: 应邀担任国际SCI刊物《Sensors》执行编辑

2007~2010年: 受聘担任国家863计划“地球观测与导航领域”专家组成员

2009~2013年: 国务院学位委员会第六届“海洋学科评议组”成员

2010年~至 今: 中国国家航天局(CNSA)-美国国家航空航天局(NASA)对地观测卫星技术工作组海洋科学组副组长

2012年~至 今: 国家863计划海洋技术领域“海洋环境监测技术”主题专家组成员

2013年~至 今: 教育部“海洋科学类专业教学指导委员会”秘书长

研究方向

research direction

卫星海洋遥感、海洋大数据挖掘

研究项目

research project

先后承担国家863项目、973课题、国家自然科学基金重点项目、欧盟第六期框架计划优先领域项目等40余项。

部分代表性项目:

[1] 国家自然科学基金面上项目(40271083)“基于卫星遥感的全球风浪和涌浪独立结构研究”,2004-2006年。

[2] 国家自然科学基金面上项目(40545018)“海洋大气耦合系统低频振荡模态间的位相与时序关系研究”, 2006-2008年。

[3] 国家自然科学基金面上项目(40675016)“基于三维HEM方法的海气低频振荡模态耦合关系研究” ,2007-2009年。

[4] 欧盟第六期框架计划优先领域项目(Project No.030902)“龙计划中国海环境和安全监测系统”第三课题“数据集成和信息管理水平评价” ,2007-2010年。

[5] 国家973计划(2005CB422308)“海洋环境信息集成与动态示范系统” ,2005-2010年。

[6] 国家自然科学基金重点项目(40730530)“测高卫星海面气象参数定量反演与气候模态精细提取” ,2008-2011年。

[7] 国家自然科学基金面上项目(60873170)“基于微细结构的虚拟人体肾脏药物代谢仿真研究” ,2009-2011年。

[8] 国家863计划(2008AA121701)面向全球气候变化的极地环境遥感关键技术与系统研究第一课题“极区海冰与海洋过程遥感监测技术”,2009-2011年。

[9] 国家自然科学基金面上项目(41076115)“基于卫星高度计的风-浪-雨耦合效应遥感机理研究与系统误差修正”, 2011-2014年。

[10] 国家重大科学研究计划课题(2012CB955603)“全球变暖对太平洋印度洋海洋-大气耦合模态变异的调节过程及机理” ,2012-2016年。

[11] 国家自然科学基金国际合作与交流项目(61361136001)“面向海上移动作业的海洋大数据挖掘与仿真重构”,2014-2017年。

[12] 国家自然科学基金委员会-山东省人民政府联合基金海洋科学研究中心联合资助项目(U1406404)“海洋环境动力学和数值模拟”第3课题“海洋遥感观测技术发展”,2014-2017年。

[13] 国家自然科学基金重点项目(41331172)“基于多源卫星遥感的全球涌浪起源与传播路径研究”,2014-2018年。

学术成果

academic achievements

发表学术论文120余篇,其中60余篇发表在国际SCI刊物上,并被Nature Goescience等32种国际知名SCI刊物及多部权威学术专著广泛引用;获得国家专利5项,计算机软件著作权23项。作为第一完成人获“教育部自然科学一等奖”2项,“山东省科技进步一等奖”1项,“青岛市科技进步一等奖”1项。

一、代表性学术论文

[1] Chen, G., and R. Ezraty, Sea level variability and Kelvin-wave-like tidal propagation around Antarctica observed by ERS-1 altimetry, The Global Atmosphere and Ocean System, 5(2): 151-175, 1996.

[2] Chen, G., and R. Ezraty, Alias impacts on the recovery of sea level amplitude and energy from altimeter measurements, International Journal of Remote Sensing, 17(18): 3567-3576, 1996.

[3] Chen, G., B. Chapron, J. Tournadre, K. Katsaros, and D. Vandemark, Global oceanic precipitation: A joint view by TOPEX and the TOPEX microwave radiometer, Journal of Geophysical Research, 102(C5): 10,457-10,471, 1997.

[4] Chen, G., and R. Ezraty, Non-tidal aliasing in seasonal sea-level variability and annual Rossby waves as observed by satellite altimetry, Annales Geophysicae, 15(11): 1478-1488, 1997.

[5] Chen, G., B. Chapron, J. Tournadre, K. Katsaros, and D. Vandemark, Identification of possible wave damping by rain using TOPEX and TMR data, Remote Sensing of Environment, 63(1): 40-48, 1998.

[6] Chen, G., B. Chapron, J. Tournadre, K. Katsaros, and D. Vandemark, A new look at the diurnal variation of global oceanic precipitation from the ocean TOPography Experiment (TOPEX) and the TOPEX Microwave Radiometer (TMR), International Journal of Remote Sensing, 19(1): 171-180, 1998.

[7] Chen, G., and R. Ezraty, Variation of Southern Ocean sea level and its possible relation with Antarctic sea ice, International Journal of Remote Sensing, 20(1): 31-47, 1999.

[8] Chen, G., On retrieving sea surface wind speed from satellite altimeters Model functions and an application case, Journal of Remote Sensing, 3(4):305-311, 1999 (in Chinese with an English abstract).

[9] Chen, G., C. Fang, and P. Xu, Using a dual frequency adjustment approach to improve the accuracy of altimeter retrieved sea surface wind speed, Journal of Image and Graphics, 4(A11):970-975, 1999 (in Chinese with an English abstract).

[10] Chen, G., and H. Lin, Observing seasonal variations of sea surface wind speed and significant wave height using TOPEX altimetry, Chinese Science Bulletin, 45(14):1323-1328, 2000.

[11] Chen, G., H. Lin, and J. Ma, On the seasonal inconsistency of altimeter wind speed algorithms, International Journal of Remote Sensing, 21(10):2119-2125, 2000.

[12] Chen, G., and H. Lin, The effect of temporal aliasing in satellite altimetry, Photogrammetric Engineering & Remote Sensing, 66(5): 639-644, 2000.

[13] Chen, G., and H. Lin, Impacts of the collocation window on the accuracy of altimeter/buoy wind-speed comparisonA simulation study, International Journal of Remote Sensing, 22(1): 35-44, 2001.

[14] Chen, G., R. Ezraty, Y. He, and C. Fang, Abnormal features of the Pacific wind system during the 199798 El Niño, International Journal of Remote Sensing, 22(18):3907-3912, 2001.

[15] Chen, G., R. Ezraty, C. Fang, and L. Fang, A new look at the zonal pattern of the marine wind system from TOPEX measurements, Remote Sensing of Environment, 79(1):15-22, 2002.

[16] Chen, G., C. Fang, Application of RS and GIS technologies in the analysis of global sea surface wind speed, Journal of Remote Sensing, 6(2):123-128, 2002 (in Chinese with an English abstract).

[17] Chen, G., B. Chapron, R. Ezraty, and D. Vandemark, A global view of swell and wind sea climate in the ocean by satellite altimeter and scatterometer, Journal of Atmospheric and Oceanic Technology, 19(11):1849-1859, 2002.

[18] Chen, G., B. Chapron, R. Ezraty, and D. Vandemark, A dual frequency approach for retrieving sea surface wind speed from TOPEX altimetry, Journal of Geophysical Research, 107(C12), 3226, doi:10.1029/2001JC001098, 2002.

[19] Chen, G., J. Ma, C. Fang, and Y. Han, Variations in oceanic rainfall, Bulletin of the American Meteorological Society, 84(10): 1346-1347, 2003.

[20] Chen, G., J. Ma, C. Fang, and Y. Han, Global oceanic precipitation derived from TOPEX and TMR: Climatology and variability, Journal of Climate, 16(23): 3888-3904, 2003.

[21] Chen, G., S. W. Bi, and J. Ma, Global structure of marine wind speed variability derived from TOPEX altimeter data, International Journal of Remote Sensing, 24(24): 5119-5133, 2003.

[22] Chen, G., S. W. Bi, and R. Ezraty, Global structure of extreme wind and wave climate derived from TOPEX altimeter data, International Journal of Remote Sensing, 25(5): 1005-1018, 2004.

[23] Chen, G., An intercomparison of TOPEX/NSCAT/ECMWF wind speeds: Illustrating and understanding systematic discrepancies, Monthly Weather Review, 132(3): 780-792, 2004.

[24] Chen, G., C. Fang, X. Qiao, H. Li, C. Zhang, Y. Chen, and D. Han, A satellite remote sensing based marine and atmospheric geographical information systemMAGIS, Periodical of Ocean University of China, 34(5): 839-843, 2004.

[25] Chen, G., C. Fang, C. Zhang, and Y. Chen, Observing the coupling effect between warm pool and “rain pool” in the tropical Pacific, Remote Sensing of Environment, 91(2): 153-159, 2004.

[26] Chen, G., A 10-year climatology of oceanic water vapor derived from TOPEX microwave radiometer, Journal of Climate, 17(13): 2541-2557, 2004.

[27] Chen, G., and Y. Chen, Some aspects of spatial aliasing in satellite altimetry, International Journal of Remote Sensing, 25(23): 5525-5535, 2004.

[28] Chen, G., and L. Fang, Improved scheme for determining the thermal centroid of oceanic warm pool using sea surface temperature data, Journal of Oceanography, 61(2): 295-299, 2005.

[29] Chen, G., and H. Lin, Impact of El Niño/La Niña on the seasonality of oceanic water vapor:With a proposed new scheme for determining the ITCZ, Monthly Weather Review, 133(10): 2940-2946, 2005.

[30] Chen, G., and G. D. Quartly, Annual amphidrome: A common feature in the ocean IEEE Geoscience and Remote Sensing Letters, 2(4): 423-427, 2005.

[31] Quartly, G. D., and G., Chen, Editorial of the Special Issue on “Satellite Altimetry: New Sensors and New Applications”, Sensors, 6: 616-619, 2006.

[32] Zhang, C., G. Chen, A First Comparison of Simultaneous Sea Level Measurements from Envisat, GFO, Jason-1, and TOPEX/Poseidon, Sensors, 6: 235-248, 2006.

[33] Chen, G., A novel scheme for identifying principal modes in geophysical variability with application to global precipitation, Journal of Geophysical Research, 111(6), D11103, doi:10.1029/2005JD006233, 2006.

[34] Zhang, C. Y., and G. Chen, SST variations of the Kuroshio from AVHRR observation, Chinese Journal of Oceanology and Limnology, 24(4): 345-351, 2006.

[35] Zhang, C. Y., and G. Chen, A global analysis of multi-mode sea surface temperature pattern, Acta Oceanologica Sinica, 26(1): 12-22, 2007. [36] Chen, G., and H. Li, Fine structures of natural modes in sea surface temperature variability: 1985-2003, Journal of Physical Oceanography, 38(2): 314–336, 2008.

[36] Zhang, C., G. Chen, and F. Qiu, Annual amphidromes observed in the atmosphere with remote sensing data, Journal of Geophysical Research---Atmospheres, 113, D16112, doi:10.1029/2008JD009864, 2008.

[37] Zhang, C., and G. Chen,The atmospheric wet pool: definition and comparison with the oceanic warm pool, Chinese Journal of Oceanology and Limnology, 26(4): 440-449, 2008.

[38] Chen, G., Y. Qi, Y. Chen, and C. Ma, Design and implementation of urban simulation oriented VRGIS, Journal of System Simulation, 21(2): 457–460, 2009.

[39] Chen, G., W. Li, and X. Li, Design and implementation of an interactive VR-Ocean platform for ocean environment and marine life simulation, Periodical of Ocean University of China, 39(5): 1037–1041, 2009.

[40] Chen, G., B. Shao, Y. Han, J. Ma, and B. Chapron, Modality of semiannual-to-multidecadal oscillations in global sea surface temperature variability, Journal of Geophysical Research, 115, C03005, doi:10.1029/2009JC005574, 2010.

[41] Ma, C., G. Chen,Y. Han, Y. Qi, and Y. Chen, An integrated VR–GIS navigation platform for city/region simulation, Computer Animation and Virtual Worlds, 21(3-4), 2010.

[42] Chen, G., Z. Wang, C. Qian, C. Lv, and Y. Han, Seasonal-to-decadal modes of global sea level variability derived from merged altimeter data, Remote Sensing of Environment, 114(11): 2524-2535, doi:10.1016/j.rse.2010.05.028, 2010.

[43] Chen, G., C. Qian, C. Zhang, New insights into annual and semiannual cycles of sea level pressure, Monthly Weather Review, 140(4):1347-1355, 2012.

[44] Chen, G., B. Li, F. Tian, P. Ji, and W. Li, Design and implementation of a 3D ocean virtual reality and visualization engine, Journal of Ocean University of China, 11(4):481-487, 2012.

[45] Zhang, C., Z. Xie, C. Roberts, L. Berry, and G. Chen, Salinity assessment in Northeast Florida Bay using Landsat TM Data, Southeastern Geographer, 52(3): 267-281, 2013.

[46] Jiang, H., and G. Chen, A global view on the swell and wind sea climate by Jason-1 mission: A revisit, Journal of Atmospheric and Oceanic Technology, 30(8): 1833-1841, 2013.

[47] Zhang, C., D. Selch, Z. Xie, C. Roberts, H. Cooper, and G. Chen, Object-based benthic habitat mapping in the Florida Keys from hyperspectral imagery, Estuarine, Coastal and Shelf Science, 134: 88-97, 2013.

[48] Zhang, H., G. Chen, C. Qian, and H. Jiang, Assessment of two SMOS sea surface salinity level 3 products against Argo upper salinity measurements, IEEE Geoscience and Remote Sensing Letters, 10(6):1434-1438, 2013.

[49] Qian, C., and G. Chen, Warmer-get-wetter or wet-get-wetter? A criterion to partition oceanic precipitation, Journal of Ocean University of China, 13 (4): 552-560, 2014.

[50] Li, B., G. Chen, F. Tian, B. Shao, and P. Ji, GPU accelerated marine data visualization method, Journal of Ocean University of China, 13(6): 964-970, 2014.

[51] Chen, G., H. Zhang, and X. Wang, Annual amphidomic columns of sea temperature in global oceans from Argo data, Geophysical Research Letters, 41(6): 2056-2062, doi:10.1002/2014GL059430, 2014.

[52] Chen, G., Revisit to atmospheric oscillations over global oceans: A combined climatology/modality approach, International Journal of Climatology, 34: 2715–2729, DOI: 10.1002/joc.3870, 2014.

[53] Zhou, S., I. Yoo, B. Benes, and G. Chen, A hybrid level of detail representation for large-scale urban scenes rendering, Computers Animation and Virtual Worlds, 25(5): 245-255, 2014.

[54] Chen, G., and X. Wang, Impact of domain geometry on the results of empirical orthogonal function analysis, Annals of GIS, 20(3): 205–216, 2014.

[55] Liu, S., Chen, G., C. Ma, and Y. Han, GPGPU acceleration for skeletal animation – comparing OpenCL with CUDA and GLSL, Journal of Computational Information Systems, 10(16): 7043–7051, 2014.

[56] Chen, G., and H. Chen, Interannual modality of upper ocean temperature: 4-D structure revealed by Argo data, Journal of Climate, in press, 2015.

[57] Jiang, H., and G. Chen, Modal Recovery of sea level variability in the South China Sea using merged altimeter data, Chinese Journal of Oceanology and Limnology, in press, 2015.

[58] Wang, X., and G. Chen, Tracking typhoon generated swell in the western North Pacific Ocean using satellite altimetry, Chinese Journal of Oceanolgy and Limnology, in press, 2015.

[59] Wu, Q., and G. Chen, Validation and intercomparison of HY-2A /MetOp-A/Oceansat-2 scatterometer wind products, Chinese Journal of Oceanolgy and Limnology, in press, 2015.

[60] Qian, C., J. Yu, and G. Chen, Decadal summer drought frequency in China: The increasing influence of the Atlantic Multi-decadal Oscillation, Environmental Research Letters, in press, 2015.

[61] Chen, G., and F. Yu, An objective algorithm for estimating maximum oceanic mixed layer depth using concurrent temperature/salinity data from Argo floats, Journal of Geophysical Research, in press, 2015.

二、科技奖励

[1] 2001年:“卫星高度计海洋观测的理论、方法与应用”获“山东省科技进步一等奖”(第1完成人)。

[2] 2003年:“卫星高度计海洋观测新方法研究及应用”获“高等学校科学研究优秀成果奖”自然科学一等奖(第1完成人)。

[3] 2008年:“多传感器海气界面卫星遥感的理论与方法”获“高等学校科学研究优秀成果奖”自然科学一等奖(第1完成人)。

[4] 2009年:获“第六届山东省优秀科技工作者”称号,记二等功。

[5] 2009年:“城域景观VR-GIS一体化仿真平台”获“山东省研究生优秀科技创新成果指导奖博士生一等奖” 。

[6] 2011年:“卫星海洋微波遥感机理、信息提取方法和应用研究”获“山东省自然科学二等奖”(第2完成人)。

[7] 2012年:“海陆一体化虚拟空间环境仿真关键技术研究及应用”获“青岛市科技进步一等奖”(第1完成人)。