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个人简介

王显威 长聘教轨副教授 教育背景 2007.09-2012.06 中国科学院 遥感应用研究所 地图学与地理信息系统 博士 2003.09-2007.07 吉林大学 地球探测科学与技术学院 测绘工程 学士 工作经历 2021.09- 上海交通大学 海洋学院 长聘教轨副教授(博士生导师) 2015.11-2021.08 纽约大学阿布扎比分校 全球海平面变化研究中心 研究员 2017.09-2017.10 纽约大学 克朗数学研究所-大气海洋中心 访问研究员 2013.10-2015.10 纽约大学阿布扎比分校 全球海平面变化研究中心 博士后 2013.02-2013.07 俄亥俄州立大学 地球科学中心 访问学者 2012.07-2014.12 北京师范大学 全球变化与地球系统科学研究院 博士后 出访及挂职经历 2019.12-2020.02 参加韩国极地研究中心组织的西南极Thwaites Glacier宿营考察 2019.10 参加纽约大学组织的格陵兰岛西部Jakobshavn Glacier宿营考察 2019.08 参加纽约大学组织的格陵兰岛东部Helheim Glacier宿营考察 2018.12-2019.02 参加韩国极地研究中心组织的南极罗斯海附近David Glacier底部融化变化考察 2017.08-2017.09 参加纽约大学组织的格陵兰岛Helheim和Jakobshavn Glacier宿营考察、峡湾海水变化调查 2017.01-2017.03 参加韩国极地研究中心组织的南极罗斯海附近Drygalski Ice Tongue潮汐影响以及底部融化变化考察 2009.10- 2010.04 参加中国第26次南极科学考察队进行南极地物光谱测量考察 科研项目 2023-2025 极地冰川变化与冰川-海洋相互作用,国家自然科学基金优秀青年科学基金项目(海外),项目负责人 2023-2024 基于卫星遥感与现场实测的Drygalski冰舌变化及稳定性机制研究,上海交通大学深蓝计划配套项目 (No. SL2022PT205),项目负责人 2023-2026 基于卫星遥感与现场实测的Drygalski冰舌变化及稳定性机制研究,国家自然科学基金面上项目 (No. 42276237),项目负责人 2023-2025 无人机中红外多光谱极地温度遥感系统,上海交通大学深蓝计划重点I类项目,主要参与人员 2018-2023 国际Thwaites冰川协作调查项目:Melting at Thwaites grounding zone and its control on sea level,美国自然科学基金(NSF PLR 1739003),主要参与人员(https://thwaitesglacier.org/people/xianwei-wang) (PI: Prof. David M. Holland) 2013-2020 Ocean-Ice-Atmosphere interaction in polar regions and sea level change,纽约大学阿布扎比分校科研基金(No. G1204),主要参与人员 (PI: Prof. David M. Holland) 教学工作 2022-2023 第二学期 本科生 MS3804 遥感原理与数字图像处理 (48/48学时,3学分) 2022-2023 第一学期 本科生 EV905 走进极地--极地遥感 (3/32学时,2学分) 2021-2022 第二学期 本科生 MS3804-1 遥感原理与数字图像处理 (48/48学时,3学分) 2021-2022 第二学期 本科生 MS3802-1 海洋观测方法(18/48学时,3学分) 纽约大学阿布扎比分校 本科生春季课程 Global Climate Change (MDENV-AD 111, With Prof. David M. Holland) 荣誉奖励 2023.01 青年访问海星学者 2021.11 上海海外高层次人才引进计划 2015.11 2014年度中国极地科学优秀论文(自然科学)一等奖 2012.07 卢嘉锡基金会优秀研究生奖 2011.11 中国科学院院长优秀奖 2010.04 中国第26次南极科学考察优秀队员

研究领域

(1)冰川立体变化研究 主要利用光学、雷达遥感,测高及地面测量等方式获取冰川三维变化信息,并利用大气变化,冰川模型等进行变化机制探测 (2)冰川-海洋交互作用 主要利用地面测量等方式获取冰川(架)表面以及内部形变、底部融化/冻结等信息,结合周围物理海洋观测等数据理解冰川变化,利用海洋及冰川模型等进行海洋对冰川变化影响研究 (3)多源遥感数据的地学应用 主要指利用多源卫星遥感、测量数据进行地表变化监测,侧重与海平面升高以及沿海城市安全相关的研究

近期论文

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Wang, X.W.* and D. M. Holland. 2022. Rapid Glacier-Ocean Interaction Observed by Terrestrial Radar Interferometry. In 2022 3rd China International SAR Symposium (CISS) (pp. 1-5). IEEE (doi: 10.1109/CISS57580.2022.9971205). Wang, X.W.* D. Voytenko and D. M. Holland. 2022. Accuracy Evaluation of Digital Elevation Model Derived from Terrestrial Radar Interferometer over Helheim Glacier, Greenland. Remote Sensing of Environment, 268, 112759 (https://doi.org/10.1016/j.rse.2021.112759). Wang, X.W.* and D. M. Holland. 2020. An Automatic Method for Black Margin Elimination of Sentinel-1A Images over Antarctica. Remote Sensing. 12(7), 1175. doi: https://doi.org/10.3390/rs12071175 Wang, X.W.* and D. M. Holland. 2018. A Method to Calculate Elevation-Change Rate of Jakobshavn Isbrae using Operation IceBridge Airborne Topographic Mapper Data. IEEE Geoscience and Remote Sensing Letters. 15(7), 981-985, doi : 10.1109/LGRS.2018.2828417 Wang, X.W.*, D. M. Holland and H. Gudmundsson. 2018. Accurate coastal DEM generation by merging ASTER GDEM and ICESat/GLAS data over Mertz Glacier, Antarctica. Remote Sensing of Environment, 206. 218-230. doi: https://doi.org/10.1016/j.rse.2017.12.041 Wang, X.W.*, D. M. Holland, X. Cheng and P. Gong. 2016. Grounding and Calving Cycle of Mertz Ice Tongue Revealed by Shallow Mertz Bank, The Cryosphere, 10, 2043-2056, doi:10.5194/tc-10-2043-2016. Wang, X.W.*, X. Cheng, P. Gong, C.K. Shum, D. M. Holland and X. W. Li. 2014. Freeboard and Mass Extraction of the Disintegrated Mertz Ice Tongue with Remote Sensing and Altimetry Data. Remote Sensing of Environment, 144, 1-10. doi: http://dx.doi.org/10.1016/j.rse.2014.01.002 (First Prize of 2014 Polar Science Publication Reward-Natural Science). Wang, X.W.*, X. Cheng, F. Hui, C. Cheng, H.K. Sum and Y. Liu. 2014. Xuelong navigation in fast-ice near the Zhongshan Station, Antarctica. Marine Technology Society Journal, 48(1), 84-91. Wang X.W., P. Gong, Y. Zhao, Y. Xu, X. Cheng, Z. Niu, Z. Luo, H. Huang, F. Sun and X. Li. 2013. Water-level changes in China's large lakes determined from ICESat/GLAS data, Remote Sensing of Environment, volume, 132, issue, C, 131-144, doi: 10.1016/j.rse.2013.01.005 Wang, X.W., X. Cheng, H. B Huang, Z. Li. 2013. DEM production for Dome-A combining GPS and GLAS data, Journal of Remote Sensing, 17(2), 439-444. Wang, X. W.*, X. Cheng, Z. Li, H. B. Huang, Z.G. Niu, X. W. Li and P. Gong. 2012. Lake water footprints identification from time-series ICESat/GLAS data, IEEE Geoscience and Remote Sensing Letters, volume, 9, issue, 3, 333-337, doi: 10.1109/LGRS.2011.2167495 Wang, X.W., X. Cheng, P. Gong, H. B. Huang, Z. Li and X. W. Li. 2011. Earth Science Applications of ICESat/GLAS: a Review, International Journal of Remote Sensing, volume, 32, issue, 23, 8837-8864, doi: 10.1080/01431161.2010.547533 Wu, W., Sun, X., Wang, X., Fan, J., Luo, J., Shen, Y., & Yang, Y. (2018). A Long Time-Series Radiometric Normalization Method for Landsat Images. Sensors, 18(12), 4505. Wu W., Shen Z., Wang X., Wu T., & Wang W. (2018). An Affine Invariant-based Match Propagation Method for Quasi-dense Image Registration. Geomatics and Information Science of Wuhan University, 43(6): 930-936 (In Chinese). Tseng, K. H., Shum, C. K., Kim, J. W., Wang, X., Zhu, K., & Cheng, X. (2016). Integrating Landsat Imageries and Digital Elevation Models to Infer Water Level Change in Hoover Dam. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 9(4), 1696-1709. Hui, F. M, T.Y, Ci, X. Cheng, T. A. Scambos, Y, Liu, Y.M Zhang, Z.H, Chi, H.B Huang, X.W, Wang, F. Wang, C. Zhao, Z.Y, Jin and K. Wang. 2014. Mapping blue ice areas in Antarctica using ETM+ and MODIS data. Annals of Glaciology, 55(66), 129-137. Zhao, C., X. Cheng, Y. Liu, F. M. Hui, J. Kang, X.W. Wang, F. Wang and C. Cheng. 2013. The slow-growing tooth of the Amery Ice Shelf from 2004 to 2012. Journal of Glaciology, 59, doi:10.3189/2013JoG3112J3225 Liu Y., X. Cheng, F. M. Hui, X. W. Wang, C. Cheng and F Wang. 2014. Detection of crevasse over polar ice shelves using laser altimeter. Science China Earth Sciences, 57(6), 1267-1277. Hui F.M., X Cheng, Y. Liu, Y. M. Zhang, Y. F. Ye, X.W. Wang, Z. Li, K. Wang, Z.F. Zhan, J.H. Guo, H.B. Huang, X.H. Li, Z.Q.Guo, P.Gong. 2013. An Improved Landsat Image Mosaic of Antarctica, Science China Earth Sciences, 56(1), 1-12, doi: 10.1007/s11430-012-4481-5 Zhao, C., X. Cheng, F. M., Hui, J. Kang, Y. Liu., X.W. Wang, F. Wang, C. Cheng et al. (2013). Monitoring the Amery Ice Shelf front during 2004–2012 using ENVISAT ASAR data. Adv Polar Sci, 24, 133-137. Feng Z, X. Cheng, J. Kang, F. Hui, Y. Liu, C. Cheng, F. Wang, X.W. Wang, C. Zhao, S. Zhao, T. Chen. 2013. Review of the NASA IceBridge mission: Progress and Prospects, Journal of Remote Sensing, 17(2), 400-410. Tseng K.H., C.K. Shum, Y. C. Yi, H. Lee, X. Cheng and X.W. Wang. 2013. Envisat altimetry Radar waveform retracking of Quasi-specular echoes over ice-covered Qinghai Lake. Terrestrial, Atmospheric and oceanic sciences, 24(4), 615-627, doi: 10.3319/TAO.2012.12.03.01(TibXS). Niu Z.G., H.Y. Zhang, X.W. Wang, W.B. Yao, D.M.Zhou, K.Y. Zhao, H.Zhao, N.N. Li, H.B. Huang, C.C. Li, J.Yang, C.X. Liu, S.Liu, L,Wang, Z. Li, Z.Z.Yang, F.Qiao, Y.M. Zheng, Y.L. Chen, Y.W. Sheng, X.H. Gao, W.H. Zhu, W.Q. Wang, H. Wang, Y.L. Weng, D.F. Zhuang, J.Y. Liu, X. Cheng, Z.Q. Guo, Peng Gong. 2012. Mapping wetland changes in China between 1978 and 2008. Chinese Science Bulletin, 57(22), 2813-2823, doi: 10.1007/s11434-012-5093-3 (2012 Forerunners 5000) Gong P, Z. G. Niu, X. Cheng, K.Y. Zhao, D.M. Zhou, J.H. Guo, L. Liang, X.F. Wang, D.D. Li, H.B. Huang, Y. Wang, K. Wang, W.N. Li, X.W. Wang, Q Ying, Z.Z. Yang, Y.F. Ye, Z. Li, D.F. Zhuang, Y.B. Chi, H.Z. Zhou, J. Yan, 2010. China’s wetland change (1990–2000) determined by remote sensing. Science China Earth Sciences, 53, 1036–1042, doi: 10.1007/s11430-010-4002-3 (Second Prize of Best Paper Reward in Science China Earth Sciences in 2014) Niu ZG, P. Gong., X Cheng, J.H. Guo, L. Wang, H.B. Huang, S.Q. Shen, Y.Z. Wu, X.F. Wang, X.W. Wang, Q. Ying, L. Liang, L.N. Zhang, L. Wang, Q. Yao, Z.Z. Yang, Z.Q. Guo and Y.J. Dai, 2009, Geographical characteristics of China’s wetlands derived from remotely sensed data. Science China Earth Sciences, 52,723–738.

学术兼职

上海交通大学致远创新研究中心2023年致远未来学者计划顾问导师 数字极地专业委员会委员 International Journal of Oceanography & Aquaculture杂志编辑 Water杂志专题编辑 多个SCI期刊Remote Sensing of Environment, JGR-Oceans, Annals of Glaciology, Computers and Geosciences, Remote Sensing, IEEE Geoscience and Remote Sensing Letter, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, Journal of Applied Meteorology and Climatology, International Journal of Remote Sensing, Polar Record, Science China Earth Sciences 和Journal of Mountain Science审稿人

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