雷达遥感/冰冻圈遥感/全球变化研究

1999.09-2003.06 山东理工大学 测绘工程专业 学士学位

2003.09-2006.06 河海大学 摄影测量与遥感专业 理学硕士

2006.09-2009.06 中国科学院遥感应用研究所 地图学与地理信息系统专业 理学博士

2009.07-2012.02 中国科学院对地观测与数字地球科学中心，助理研究员

2012.03-2017.07 中国科学院遥感与数字地球研究所，副研究员

2017.07-至今 中国科学院空天信息创新研究院，副研究员

2018-2022，中国科学院战略性先导科技专项(A 类)“地球大数据科学工程”课题“遥感三极：协同与对比”专题：青藏高原典型冰川区高程变化提取，专题负责人；

2016-2020，国家重点研发计划“全球变化大数据的科学认知与云共享平台”子课题：高亚洲冰雪变化与下游水资源认知模型，子课题负责人；

2016-2020，国家重点研发计划“地球资源环境动态监测技术”子课题：遥感立体协同观测与地表要素高精度反演，子课题负责人；

2015-2018，国家自然科学基金面上项目：青藏高原不同气候区典型冰川动态变化的SAR探测研究及区域特征分析，项目负责人；

2015-2016，所长青年基金(A类)：基于干涉SAR的山地冰川冰量变化监测方法研究，课题负责人；

2015-2016，国家测绘地理信息局重点实验室开放课题：干涉SAR山地冰川变化参数提取，课题负责人；

[1]Zhou, J., Li, Z., Fu, X. et al., Estimating the mass change of mountain glacier using a novel method based on InSAR observations, Environ Earth Sci, 2019, 78: 77. DOI:10.1007/s12665-019-8075-9.

[2]Fu X., Li Z., Zhou J*., Characterizing the surge behavior of Alakesayi Glacier in the West Kunlun Shan, Northwestern Tibetan Plateau, from remote-sensing data between 2013 and 2018. Journal of Glaciology, 2019, 65(249), 168-172.doi:10.1017/jog.2019.2.

[3]张鑫, 周建民*, 刘志平. 基于KH-9数据对青藏高原山地冰川DEM提取及精度评价——以普若岗日冰川和雅弄冰川为例. 冰川冻土, 2019, 41(1):27-35.

[4]Qiao D., Zhou J*.,Liang S., et al., Combined Effects of Precipitation and Temperature on the Responses of Forest Spring Phenology to Winter Snow Cover Dynamics in Northeast China, IEEE Access,2019, 7, 10.1109/ACCESS.2019.2943202.

[5]Zhou J., li Z., He X., et al., Glacier Thickness Change Mapping Using InSAR Methodology, IEEE Geoscience and Remote Sensing Letters, 2014，11(1)，pp.44-48.

[6]Zhou J., li Z.，Guo W., Estimation and analysis of the surface velocity field of mountain glacier in Muztagata using satellite SAR data，Environmental Earth Sciences，2014，DOI:10.1007/S12665-013-2749-5.

[7]Zhou J., li Z., et al., Movement Estimate of the Dongkemadi Glacier on the Qinghai-Tibetan Plateau using L-band and C-band spaceborne SAR data，International journal of remote sensing, 32(22), 2011, pp.6911-6928.

[8]Zhou J., li Z., Tang P., Mountain Glacier Motion Change Detection by Satellite L-Band SAR Data” International Geoscience and Remote Sensing Symposium Jul. 2012, pp.4434-4437.

[9]Zhou J., li Z., Xing Q., Monitoring Thickness Changes of Mountain Glacier by Differential Interferometry of Alos Palsar Data. International Geoscience and Remote Sensing Symposium Jul. 2011, Vancouver, pp.3649-3652.

[10]Zhou J., li Z., Estimation The Motion Of Dongkemadi Glacier In Qinghai-Tibet Plateau Using Differential Sar Interferometry With Corner Reflectors. International Geoscience and Remote Sensing Symposium Jul. 2011, Vancouver, pp.3183-3186.

[11]Zhou J., Z. li, Chen Q., Deriving mountain glacier border information in Qinghai-Tibetan Plateau with C-band and L-band SAR data, Proc. of SPIE, 7841, 2010.

[12]Zhou J., li Z., Xing Q., Deriving glacier border information based on analysis of decorrelation in SAR interferometry, Sciences in Cold and Arid Regions, 2(3), 2010, pp: 0212-0217.

[13]周建民，李震，刑强，基于雷达干涉失相干特性提取冰川边界方法研究，《冰川冻土》, 32(1), 2010, pp. 133-138.

[14]周建民，李震， 基于ALOS/PALSAR雷达干涉数据的中国西部山谷冰川冰流运动规律研究。《测绘学报》，38(3), 2009, pp.341-347.

[15]周建民，李震，基于ERS tandem干涉数据的青藏高原冰川参数提取方法研究。《高技术通讯》，19(9), 2009, pp. 964-970.

[16]周建民，李震，西部冰川表面C-band和L-band雷达数据干涉失相干特性分析。《国土资源遥感》，2, 2009, pp.9-13.

[17]Zhou J., Z. li, X. Li, Estimation the Movement of Glacier in Qinhai-Tibetan Plateau Using Satellite Radar Interferometry. International Geoscience and Remote Sensing Symposium Jul. 2008, Boston, Vol.IV:1057-1060.)

[18]Z. li, Zhou J., B. Tian, Interferometric and Polarimetric SAR for glacier investigation in West China, Proc. of SPIE, 7841, 2010.

[19]Z. li, Zhou J., B. Tian, “The glacier movement estimation and analysis with InSAR in the Qinghai-Tibetan PlateaU”, International Geoscience and Remote Sensing Symposium, 2009, Cape Town, Africa, Vol.II: 578-581.

[20]Z. li, Zhou J., B. Tian and C. Xie. The Glacier Identification using Polarimetric and Interfermetric Information SAR in Qinhai-Tibetan Plateau, in Proc of International Geoscience and Remote Sensing Symposium 2008, Boston, Vol.IV:1054-1056.

[21]李震，周建民，谢酬，星载SAR差分干涉测量提取汶川地震同震形变场，《自然灾害学报》, 20(1), 2011, pp.105-109.

[22]Z. li, Q. Chen, Zhou J., and Bangsen Tian, Analysis of synthetic aperture range image characteristics for seismic disasters in the Wenchuan earthquake, Journal of Applied Remote Sensing, 3, 2009, pp.1-10.

[23]Q. Xing, Z. li, Zhou J., Comparison of Aster GDEM and SRTM DEM in deriving the thickness change of small Dongkemadi Glacier on Qinghai-Tibetan Plateau, International Geoscience and Remote Sensing Symposium Jul. 2011, Vancouver, pp.3171-3174.

[24]Z. li, Q.Xing, S. Liu, Zhou J. and L. Huang, Monitoring thickness and volume changes of the Dongkemadi Ice Field on the Qinghai-Tibetan Plateau(1969–2000) using Shuttle Radar Topography Mission and map data, International Journal of Digital Earth, 2011, DOI:10.1080/17538947.2011.594099.

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