杨康

发布者:庞宝鑫发布时间:2017-09-26浏览次数:1682

杨康个人简历



杨康,男,19866月生,甘肃省庆阳市人。南京大学理学博士,美国加州大学洛杉矶分校(UCLA)博士后,现任职南京大学地理学院副教授。主要从事冰冻圈遥感方面的研究,重点关注格陵兰冰盖水文与物质平衡,利用冰盖实地调查与多源卫星遥感影像分析了冰面水系输送与释放融水的过程,揭示了冰面水系与陆地水系在形态结构上的异同,提出了冰面内部集水区的概念,研究了冰面水系输送融水的效率。近五年来,在PNASJournal of Geophysical ResearchGeophysical Research Letters等国际著名期刊发表SCI论文10余篇,担任了10余本SCI期刊的论文审稿人;主持或参与了美国宇航局冰冻圈研究计划项目(NASA Cryosphere Program)、国家自然科学基金青年科学基金项目、国家863计划重点项目课题、国家科技支撑计划项目等多项科研项目;获得国家发明专利8项、软件著作权2项;受邀在美国俄勒冈大学、英国谢菲尔德大学等高校做了专题学术报告;荣获了教育部科技进步一等奖、教育部博士学术新人奖、江苏省优秀博士学位论文、UCLA Chancellor's Award for Postdoctoral Research(第一位地理系获奖人)等奖励;研究成果被美国纽约时报、国家地理杂志等多家媒体报道。

联系方式:kangyang@nju.edu.cn



1)工作教育背景

2017.09至今     南京大学 地理与海洋科学学院 副教授

2015.01-2017.03  美国加州大学洛杉矶分校 地理系 博士后

2014.07-2017.07  南京大学 地理与海洋科学学院 副研究员

2008.09-2014.06  南京大学 地理与海洋科学学院 理学博士

2011.09-2012.12  美国加州大学洛杉矶分校 地理系 联合培养博士

2004.09-2008.06  南京大学 地理与海洋科学学院 理学学士


2)奖励情况

2017年度  科技部遥感中心遥感青年科技人才创新资助计划

2016年度  UCLA Chancellor's Award for Postdoctoral Research

(第一位地理系获奖人,UCLA共有1300余名博士后,4人获奖)

2016年度  江苏省优秀博士学位论文

2016年度  南京大学优秀博士研究生创新能力提升计划一等奖

2013年度  南京大学研究生创新能力计划

2013年度  教育部科学技术进步奖一等奖(排名12/20

2011年度  国家公派留学基金

2011年度  教育部博士学术新人奖


3)发表论文

[1] Smith, L.C., Chu, V.W., Yang, K., Gleason, C.J., Pitcher, L.H., Rennermalm, A.K., Legleiter, C.J., Behar, A.E., Overstreet, B.T., Moustafa, S.E., Tedesco, M., Forster, R.R., LeWinter, A.L., Finnegan, D.C., Sheng, Y., Balog, J., 2015. Efficient meltwater drainage through supraglacial streams and rivers on the southwest Greenland ice sheet. Proceedings of the National Academy of Sciences (PNAS), 112(4): 1001-1006 (PNAS封面文章).

[2] Yang, K., Smith, L.C., 2016. Internally drained catchments dominate supraglacial hydrology of the southwest Greenland Ice Sheet. Journal of Geophysical Research: Earth Surface, 121: 1891-1910.

[3] Yang, K., Karlstrom, L., Smith, L.C., Li, M., 2016. Automated high resolution satellite image registration using supraglacial rivers on the Greenland Ice Sheet. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 10(3): 845-856.

[4] Yang, K., Smith, L.C., Chu, V.W., Pitcher, L.H., Gleason, C.J., Rennermalm, A.K., Li, M., 2016. Fluvial morphometry of supraglacial river networks on the southwest Greenland Ice Sheet. GIScience & Remote Sensing, 53(4): 459-482.

[5] Yang, K., Li, M., Liu, Y., Cheng, L., Huang, Q., Chen, Y., 2015. River Detection in Remotely Sensed Imagery Using Gabor Filtering and Path Opening. Remote Sensing, 7(7): 8779-8802.

[6] Yang, K., Smith, L.C., Chu, V.W., Gleason, C.J., Li, M., 2015. A Caution on the Use of Surface Digital Elevation Models to Simulate Supraglacial Hydrology of the Greenland Ice Sheet. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 8(11): 5212-5224.

[7] Yang, K., Li, M., Liu, Y., Cheng, L., Duan, Y., Zhou, M., 2014. River Delineation from Remotely Sensed Imagery Using a Multi-Scale Classification Approach. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 7(12): 4726-4737.

[8] Yang, K., Li, M., 2014. Greenland Ice Sheet surface melt: A review. Sciences in Cold and Arid Regions, 6(2): 99-106.

[9] Yang, K., Smith, L.C., 2013. Supraglacial streams on the Greenland ice sheet delineated from combined spectral-shape information in high-resolution satellite imagery. IEEE Geoscience and Remote Sensing Letters, 10(4): 801-805.

[10] Karlstrom, L. and Yang, K., 2016. Fluvial supraglacial landscape evolution on the Greenland Ice Sheet. Geophysical Research Letters, 43: 2683–2692.

[11] Pitcher, L.H, Smith, L.C., Gleason, C.J., Yang, K., 2016. CryoSheds: a GIS Modeling Framework for Generating Hydrologic Watersheds for land-terminating glaciers and ice sheets using Digital Elevation Models and Remote Sensing Observations. GIScience and Remote Sensing, 53(6): 707-722.

[12] Gleason, C.J., Smith, L.C., Chu, V.W., Legleiter, C.J., Pitcher, L.H., Overstreet, B.T., Rennermalm, A.K., Forster, R.R., Yang, K., 2016. Characterizing supraglacial meltwater channel hydraulics on the Greenland Ice Sheet from in situ observations. Earth Surface Processes and Landforms, 41(14): 2111-2122.

[13] King, L., Hassan, M., Yang, K., Flowers, G., 2016. Flow routing for delineating supraglacial meltwater channel networks. Remote Sensing, 8(12): 988.

[14] Liu, Y., Zhou, M., Zhao, S., Zhan, W., Yang, K., Li, M, 2015. Automated extraction of tidal creeks from airborne laser altimetry data. Journal of Hydrology, 527: 1006-1020.

[15] Cheng, L., Yang, K., Tong, L., Liu, Y., Li, M., 2013. Invariant triangle-based stationary oil platform detection from multi-temporal synthetic aperture radar data. Journal of Applied Remote Sensing, 7.

[16] 杨康, 2013. 格陵兰冰盖表面消融研究进展. 冰川冻土, 35(1): 101-109.

[17] 杨康, 刘巧, 2016. 冰川表面水文系统研究综述. 冰川冻土, 38(6): 1666-1678.

[18] 杨康, 李满春, 刘永学, 程亮, 陈焱明, 2012. 基于累积相似度表面的空间权重矩阵:构建方法. 测绘学报, 41(2): 259-265.

[19] 杨康, 李满春, 刘永学, 程亮, 江冲亚, 2011. 遥感影像道路的多点同时快速行进提取方法. 遥感技术与应用, 26(3): 294-302.


4)参加学术会议

[1] 特邀报告Yang, K., 2016. Supraglacial river networks on the southwest Greenland Ice Sheet. Greenland Ice Sheet Hydrology, Topography and Dynamics Workshop, University of Sheffield, Sheffield, United Kingdom.

[2] 特邀报告Yang, K., 2016. Understanding Greenland Supraglacial Hydrology Using a Remotely Sensed Approach. Geography Department, University of Sheffield, Sheffield, United Kingdom.

[3] 特邀报告Yang, K., 2016. Surface meltwater routing on the Greenland Ice Sheet. Department of Earth Sciences, University of Oregon, Eugene, Oregon.

[4] 特邀报告Yang, K., 2016. Mapping Arctic rivers using PGC high-resolution satellite images. Polar Cyberinfrastructure Research Coordination Network Cyber + Imagery Workshop, Polar Geospatial Center, University of Minnesota, St. Paul, Minnesota, USA.

[5] Yang, K., Smith, L.C., Pitcher, L.H., 2016. Internally drained catchments dominate supraglacial hydrology of the southwest Greenland Ice Sheet. Greenland Surface Mass Balance Workshop, Lamont–Doherty Earth Observatory of Columbia University, New York City, New York, USA.

[6] Yang, K. and Smith, L.C., 2016. Internally drained catchments dominate supraglacial hydrology of the southwest Greenland Ice Sheet. Fall Meeting of the American Geophysical Union, San Francisco, California, USA.

[7] Yang, K., 2015. Monitoring supraglacial hydrologic features on the southwest Greenland Ice Sheet using Landsat-8 panchromatic imagery. Arctic Observing Open Science Meeting, Seattle, Washington, USA.

[8] Yang, K., Smith, L.C., Chu, V.W., Pitcher, L.H., Gleason, C.J., 2015. Internally Drained Supraglacial River Catchments on the Southwest Greenland Ice Sheet. Fall Meeting of the American Geophysical Union, San Francisco, California, USA.

[9] Yang, K. and Smith, L.C., 2012. Supraglacial Rivers on the Greenland Ice Sheet Delineated from Combined Spectral-Shape Information in High Resolution WorldView-2 Satellite Imagery. Fall Meeting of the American Geophysical Union, San Francisco, California, USA.

[10] Yang, K., 2010. Multi-points Fast Marching: A Novel Method for Road Extraction. The 18th International Conference on Geoinformatics, Beijing, China.

[11] Yang, K., 2009. Urban air pollution study based on GIS. 2009 Joint Urban

Remote Sensing Event, Shanghai, China.


5)授权国家发明专利

[1] 一种海岸带水体遥感信息全自动提取方法 (ZL201010566910.8).

[2] 基于区域聚类的遥感影像分割方法 (ZL201010566893.8).

[3] 基于半监督学习的海岸海洋遥感特征地类识别方法 (ZL201010568737.5).

[4] 一种基于恒虚警率的影像舰船提取方法 (ZL201010568736.0).

[5] 一种利用多时相雷达数据检测海上静止目标的方法 (ZL201210275677.7).

[6] 一种基于LiDAR数据与正射影像的3维屋顶重建方法 (ZL201110423560.4).

[7] 一种基于LiDAR数据的建筑物区域提取方法 (ZL201110432421.8).

[8] 基于多分辨率遥感影像离散点融合的DEM构建方法 (ZL201110417845.7).


6)登记软件著作权

[1] 海岸海洋专题信息遥感提取与反演系统软件 (2011SR012715).

[2] 海岸海洋环境与资源遥感监测与评价分析系统软件 (2011SR012682).


7)主持或参与科研项目

[1] 格陵兰冰盖表面水系形态特征与融水输送效率遥感研究,国家自然科学基金青年基金项目,2016.01-2018.1225万元,主持

[2] 格陵兰冰面水系遥感制图研究,中央高校基本科研业务费项目-国际科技合作项目,2017.05-2018.0420万元,主持

[3] 格陵兰冰盖水文遥感研究,中央高校基本科研业务费项目-青年基金培育项,2015.05-2018.0410万元,主持

[4] 遥感青年科技人才创新资助计划,科技部遥感中心,2017.08-2019.07 2万元,主持

格陵兰冰盖表面融水存储、输送与释放遥感研究,教育部博士学术新人奖项目,2011.07-2014.06 3万元,主持

[5] 格陵兰冰盖表面洼地储水量遥感估算与影响分析,江苏省研究生培养创新工程项目,2012.7-2013.7 1万元,主持

[6] Drainage efficiency of the Greenland supraglacial river networkNASA Cryospheric Sciences Program2014.08-2017.08500万元,参与

[7] Towards hydrologic understanding of the Greenland ice sheetNASA Cryospheric Sciences Program2011.08-2014.08500万元,参与

[8] “一路”重点区域国土安全监测系统集成与应用示范,国家重点研发计划,2017.07-2021.061300万元,参与

[9] 粉砂淤泥质海岸带潮沟系统演化过程及其对人类活动响应的遥感监测研究——以江苏中部沿海为例,国家自然科学基金面上项目,2015.01-2017.12 75万元,参与

[10]地理国情监测应用服务,国家科技支撑计划项目课题,2012.01-2014.12 171万元,参与


8)国内外学术团体任职

American Geophysical Union会员 (2011-present)

Association of Polar Early Career Scientists会员 (2015-present)

Geomorphology, Journal of Glaciology, Remote Sensing, Remote Sensing Letters, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, Sciences in Cold and Arid Regions, Journal of Ocean Engineering and Science, International Journal of Digital Earth, GIScience & Remote Sensing, ISPRS Journal of Photogrammetry and Remote Sensing等期刊审稿人


9)媒体报道

National Geographic, “Mapping the Hidden Worlds Beneath Greenland’s Ice” (August 4, 2016).

Futurity, “Like rivers on land, melting water erodes Greenland’s ice” (April 6, 2016).

Phys.org, Eurasia Review, Newswise, Science News, and ScienceDaily, “Summer melt-driven streams on Greenland's ice sheet brought into focus” (April 5, 2016).

New York Times, “Greenland is melting away” (October 28, 2015).