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长安大学地质工程与测绘学院导师教师师资介绍简介-李振洪教授

本站小编 Free考研考试/2021-07-03

李振洪 教授 地质工程与测绘学院




个人资料
个人概况
研究领域
开授课程
科研项目
论文
科技成果
荣誉奖励
工作经历










学位: 博士
毕业院校: 英国伦敦大学学院
邮件: zhenhong.li@chd.edu.cn
电话:
出生年月: 2100-02-16
办公地点: 地测学院112室







个人资料
学院: 地质工程与测绘学院
性别: 男
出生年月: 2100-02-16
职称: 教授
学位: 博士
学历: 博士
毕业院校: 英国伦敦大学学院
联系电话:
电子邮箱: zhenhong.li@chd.edu.cn
通讯地址: 陕西省西安市雁塔路126号长安大学雁塔校区
邮编: 710054
传真:
办公地址: 地测学院112室
教育经历: 1993.9-1997.7:武汉大学(原武汉测绘科技大学),本科
1997.9-2001.9:武汉大学,硕博连读
2001.9-2005.4:英国伦敦大学学院,博士




个人简介
李振洪,博士、博士生导师,长安大学****,地质工程与测绘学院院长,西部矿产资源与地质工程教育部重点实验室主任,国家自然基金委川藏铁路重大专项项目首席科学家,科技部国家重点研发项目首席科学家。
李振洪教授主要从事卫星大地测量与遥感技术(含SAR/InSAR与GNSS)及其在地质灾害、环境变化监测和精准农业方面应用的研究。
1997年原武汉测绘科技大学(现武汉大学)获大地测量专业学士学位,2005年初获英国伦敦大学学院卫星大地测量与遥感方向哲学博士学位。2008-2014英国格拉斯哥大学讲师/高级讲师,2014-2020英国纽卡斯尔大学工程学院影像大地测量教授。2010-2012美国航空航天局(NASA)喷气动力实验室(JPL)访问科学家,2015-2017武汉大学地球空间信息技术协同创新中心客座研究员。
李振洪教授现为国际大地测量协会会士,英国皇家天文学会会士,英国遥感与空间摄影学会会士,电气和电子工程师协会高级会员。
李振洪教授现已出版编著1部,发表SCI论文130余篇(其中WoS高被引论文5篇)。



社会职务
李振洪教授现担任欧洲遥感实验室协会(EARSeL) Radar特别兴趣组副主席(2016-2020),国际摄影测量与遥感协会(ISPRS)微波遥感工作组(WG III/2)副主席(2016-2020);曾担任国际大地测量学会(IAG) SC4.4委员会主席(2011-2015),英国自然科学研究基金会地球物理和大地测量设施专业委员会委员(2010-2016)。
李振洪教授现任国际期刊《Remote Sensing》责任副主编和《Advance in Space Research》副主编,以及《Remote Sensing》、《Sensors》和《Tectonophysics》等共十几个专刊的客座主编和多个其它国际期刊的编委。
李振洪教授现在还担任:
- 中国灾害防御协会天空地多元信息与综合减灾技术专业委员会专家组副组长(2020-2025)
- 中国地球物理学会第十届理事会常务理事(2019-2022)
- 中国测绘地理信息学会第十二届大地测量与导航专业委员会委员(2019-2021)
- 中国地球物理学会第一届大地测量与遥感专业委员会副主任(2021-2025)
- 陕西省地震学会副理事长(2019-2022)
- 陕西省测绘地理信息学会第十一届理事会副理事长(2020-2023)




研究领域

李振洪教授团队研究领域包括:
- 卫星大地测量
- 遥感(含SAR/InSAR、光学、高光谱)
- 卫星大数据
- 地壳运动、活动断层与地震
- 地质灾害
- 环境变化监测
- 精准农业





开授课程
本科大三:《数字高程模型》
本科大三:《GNSS原理及应用》





科研项目



-科技部国家重点研发计划“重大自然灾害监测预警与防范” 重点专项,大范围自然灾害交通网信息全息感知与智能控制及安全诱导技术装备研发(项目编号:2020YFC**;国拨经费:1766万元),2020.11-2024.10;首席。
- 国家自然科学基金委重大基金专项项目,川藏铁路重大灾害风险识别与预测(项目编号:**;国拨经费:1500万元), 2020.01-2023.12; 首席。
- 国家自然科学基金委重点国际合作研究项目,东非裂谷区地裂缝灾害机理与防控(项目编号:),2020.01-2024.12;参与。
- 陕西省科技创新团队:地质灾害监测预警和防控创新团队(项目编号:2021TD-51), 2021-2023;项目负责人。

·UK-China Agritech Challenge - REmote sensing and Decision support for Apple tree Precision management, Production and globaL tracEability (RED-APPLE), BBSRC, United Kingdom, 2019.02-2022.02.
·Sentinels of Wheat (ST/N006801/1),the STFC-NSFC Newton Agri-Tech Joint Programme, 2017-2019.
·PAFiC: Precision Agriculture for Family-farms in China (ST/N006801/1),the STFC-NSFC Newton Agri-Tech Joint Programme, 2016-2019.
·Community-based earthquake disaster risk reduction in China (CEDRRiC): integrating local and scientific knowledge for planning and preparedness (NE/N012151/1),the NERC-ESRC-NSFC Newton Fund -Increasing Resilience to Natural Hazards in Earthquake Prone Regions of China (IRNHiC), 2016.01-2018.12.
·DRAGON-4: Earth observations for geohazard monitoring and risk assessment,European Space Agency andthe Ministry of Science and Technology (MOST), China, 2016-2020.
·Building REsilience to Multi-source Flooding in South/Southeast Asia through a Technology-informed Community-based approacH (REMATCH, NE/P015476/1),NERC Global Challenges Research Fund: Building Resilience, 2016-2017.
·DRIER-China: Drought Resilience In Ecosystem services and Rural communities in China (NE/P015484/1),NERC Global Challenges Research Fund: Building Resilience, 2016-2017.
·Centre for the Observation and Modelling of Earthquakes, Volcanoes and Tectonics (COMET, come30001),Natural Environment Research Council (NERC), United Kingdom, 2014-2019.
·Looking inside the Continents from Space (LiCS): Insights into Earthquake Hazard and Crustal Deformation (NE/K010794/1),Natural Environment Research Council (NERC) Large Grant, United Kingdom, 2014-2019.
·Urban Big Data Research Centre,Economic and Social Research Council(ESRC) Large Grant, 2014-2019.
·Exploring the potential for precision nutrient management in China (PUMiC),the STFC Newton Agri?Tech Fund, 2015-2016.
·RApID: Resilient Application of Intelligent Disaster management,the STFC Newton Fund, 2014-2015.
·Exemplar Smart Farming in Newcastle,the STFC Newton Agri?Tech Pathfinder programme, 2014-2015.
·Ground Based Synthetic Aperture Radar (GB-SAR) (NERC Reference: CC049),NERC Strategic Environmental Science Capital Call, 2014.
·RAE Distinguished Visiting Fellowship (to support Dr Maorong Ge from GFZ): GNSS Seismology for responding to large earthquakes and monitoring infrastructure stability,Royal Academy of Engineering, 2014-2015.
·Assessing the performances of Terrestrial Imaging Systems for Topographic Mapping,National Centre for Earth Observation (NCEO), United Kingdom, 2013-2014.
·Integration of GPS and InSAR for high precision deformation mapping,Key Laboratory of Earth Fissures Geological Disaster, Ministry of Land and Resources (Geological Survey of Jiangsu Province), 2013-2014.
·InSAR for the Earth’s surface deformation in the Fenwei Basin,China Geological Survey - Chang’an University, 2013-2015.
·Present-day crustal deformation in Central Lhasa Plate andCharacteristics of thegeodynamic process in preparation of strong earthquakes,China Earthquake Administration (Institute of Crustal Dynamics), 2013-2015.
·DRAGON-3: Monitoring crustal deformation and man-made infrastructure in China using InSAR observations,European Space Agency andthe Ministry of Science and Technology (MOST), China, 2012-2016.
·Using high resolution topographic data to detect regions of high seismic hazard from space,Carnegie Trust (Larger Grant),2012-2013.
·Polarimetric synthetic aperture radar image processing for rapid assessment of earthquake hazard damage,the Royal Society of Edinburgh (RSE) - National Natural Science Foundation of China (NSFC) International Joint Project, 2012-2014(UK Leading PI).
·Landslide and Ground subsidence monitoring with advanced InSAR,China Geological Survey - Chang’an University, 2012-2014.
·SSSC-SFC: Feasibility of G-SAR toolbox for remote monitoring of infrastructure stability,Scottish Funding Council, 2012-2013.
·GAS: Generic Atmosphere Solutions for radar measurements (NE/H001085/1),Natural Environment Research Council (NERC), United Kingdom, 2009-2011 (PI).
·Multi-wavelength PS InSAR techniques and their applications to land subsidence in Eastern China,National Natural Science Foundation of China (NSFC), 2011-2013 (Co-I; PI: Prof Guoxiang Liu, Southwest Jiaotong University, China).
·Use of InSAR to map surface cracks in Xi’an City, China.China Geological Survey - Chang’an University, 2009-2011.
·Centre for the Observation and Modelling of Earthquakes, Volcanoes and Tectonics (COMET+) , National Centre for Earth Observation (NCEO), Theme 6: Dynamic Earth and Geohazards.Natural Environment Research Council (NERC), United Kingdom, 2008-2012 (Associated Investigator).
·DRAGON-2: Crustal deformation in China associated with the seismic cycle of major faults or related to lakes loading on the lithosphere: Measurement by SAR Interferometry,European Space Agency andthe Ministry of Science and Technology (MOST), China, 2008-2012.
·DRAGON-2: Monitoring ground surface displacement in the Three Gorges area, Dangxiong-Lasha and Jiangsu province area,European Space Agency andthe Ministry of Science and Technology (MOST), China, 2008-2012.
·OSCAR: Online Services for Correcting Atmosphere in Radar,NASA, 2009-2011 (Collaborating with Dr Paul von Allmen (PI) and Dr Eric Fielding at JPL).
·Geodetic Imaging of Earth's Surface Deformation Using Integrated InSAR and GPS Observations,NASA, 2008-2011 (Collaborating with Prof. William C. Hammond (PI), Prof. Geoffrey Blewitt, and Prof. Hans-Peter Plag at University of Nevada, Reno)
·Monitor active faults using GPS/InSAR integrated techniques,China 863 programme, 2009-2010 (PI: Prof Caijun Xu, Wuhan University; ID: 2009AA12Z317).
·Using space geodesy techniques (i.e. GPS and InSAR) to monitor deformation over the Yellow River Delta,National Natural Science Foundation of China (NSFC), 2006-2008 (PI: Prof Xinghua Zhou, First Institute of Oceanography, SOA, China; ID: **).




论文
论文统计:至今编著1部,论文近170篇,其中SCI论文133篇,WoS高被引论文5篇。


Selected Journal Publications



[1].Wang, G., P. Li*,Z. Li, D. Ding, L. Qiao, J. Xu, G. Li, and H. Wang (2020), Coastal Dam Inundation Assessment for the Yellow River Delta: Measurements, Analysis and Scenario,Remote Sensing, 12(21), 3658.
[2].Yu, C., N. T. Penna, andZ. Li*(2020), Optimizing Global Navigation Satellite Systems network real-time kinematic infrastructure for homogeneous positioning performance from the perspective of tropospheric effects,Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 476(2242), **.
[3].Qu, R., R. Qu, Y. Wu, J. Chen, G.D. Jones, W. Li, S. Jin, Q. Chang, Y. Cao, G. Yang,Z. Li, L.J. Frewer (2020), Effects of Agricultural Cooperative Society on Farmers’ Technical Efficiency: Evidence from Stochastic Frontier Analysis,Sustainability, 12(19), 8194.
[4].Chen, L., P. Zhang, J. Xing,Z. Li, X. Xing, and Z. Yuan (2020), A Multi-Scale Deep Neural Network for Water Detection from SAR Images in the Mountainous Areas,Remote Sensing, 12(19), 3205.
[5].Roger, M.,Z. Li, P. Clarke, C. Song, J.-C. Hu, W. Feng, and L. Yi (2020), Joint Inversion of Geodetic Observations and Relative Weighting - The 1999 Mw 7.6 Chi-Chi Earthquake Revisited,Remote Sensing, 12(19), 3125.
[6].Yu, C.,Z. Li*, and N. T. Penna (2020), Triggered afterslip on the southern Hikurangi subduction interface following the 2016 Kaikōura earthquake from InSAR time series with atmospheric corrections,Remote Sensing of Environment, 251, 112097.
[7].Tan, S., L. Chen, Z. Pan, J. Xing,Z. Li, and Z. Yuan (2020), Geospatial Contextual Attention Mechanism for Automatic and Fast Airport Detection in SAR Imagery,IEEE Access, 8, 173627-173640.
[8].Yu, C., N. T. Penna, andZ. Li(2020), Ocean Tide Loading Effects on InSAR Observations Over Wide Regions,Geophysical Research Letters, online.
[9].Li, T., B. Zhang, W. Xiao, X. Cheng,Z. Li, and J. Zhao (2020), UAV-Based Photogrammetry and LiDAR for the Characterization of Ice Morphology Evolution,IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 13, 4188-4199.
[10].Meldebekova, G., C. Yu,Z. Li, and C. Song (2020), Quantifying Ground Subsidence Associated with Aquifer Overexploitation Using Space-Borne Radar Interferometry in Kabul, Afghanistan,Remote Sensing, 12(15).
[11].Weiss, J. R., R. J. Walters, Y. Morishita, T. J. Wright, M. Lazecky, H. Wang, E. Hussain, A. J. Hooper, J. R. Elliott, C. Rollins, C. Yu, P. J. González, K. Spaans,Z. Li, B. Parsons (2020), High-resolution surface velocities and strain for Anatolia from Sentinel-1 InSAR and GNSS data,Geophysical Research Letters, online.
[12].Ma, D., Y. Liu,Z. Li, H. Bao, and Z. Jin (2020), Recognition of the coastal dune migration micro-deformation in Changli Gold Coast of China based on GB-InSAR,Marine Georesources & Geotechnology, 1-9.
[13].Fu, Y., G. Yang, Z. Li, H. Li,Z. Li, X. Xu, X. Song, Y. Zhang, D. Duan, C. Zhao, L. Chen, (2020), Progress of hyperspectral data processing and modelling for cereal crop nitrogen monitoring,Computers and Electronics in Agriculture, 172, 105321.
[14].Li, W., B. Clark, J. A. Taylor, H. Kendall, G. Jones,Z. Li, S. Jin, C. Zhao, G. Yang, C. Shuai, X. Cheng, J. Chen, H. Yang, L. J. Frewer, (2020), A hybrid modelling approach to understanding adoption of precision agriculture technologies in Chinese cropping systems,Computers and Electronics in Agriculture, 172, 105305.
[15].Dai, K., X. Shi, J. Gou, L. Hu, M. Chen, L. Zhao, X. Dong, andZ. Li(2020), Diagnosing Subsidence Geohazard at Beijing Capital International Airport, from High-Resolution SAR Interferometry,Sustainability, 12(6).
[16].Yang, H., C. Xi, X. Zhao, P. Mao, W. Z. Shi, T. He, andZ. Li(2020), Measuring the Urban Land Surface Temperature Variations Under Zhengzhou City Expansion Using Landsat-Like Data,Remote Sensing, 12(5).
[17].Albino, F., J. Biggs, C. Yu, andZ. Li(2020), Automated methods for detecting volcanic deformation using Sentinel-1 InSAR time series illustrated by the 2017-2018 unrest at Agung, Indonesia,Journal of Geophysical Research: Solid Earth, in press.
[18].Chen, B.,Z. Li*, C. Yu, D. Fairbairn, J. Kang, J. Hu, and L. Liang (2020), Three-dimensional time-varying large surface displacements in coal exploiting areas revealed through integration of SAR pixel offset measurements and mining subsidence model,Remote Sensing of Environment, 240, 111663.
[19].Dai, K.,Z. Li*, Q. Xu, R. Bürgmann, D. G. Milledge, R. Tomás, X. Fan, C. Zhao, X. Liu, J. Peng, Q. Zhang, Z. Wang, T. Qu, C. He, D. Li, and J. Liu (2020), Entering the Era of Earth Observation-Based Landslide Warning Systems,IEEE Geoscience and Remote Sensing Magazine, 8(1), 136- 153.
[20].Li, Z., J. Taylor, H. Yang, R. Casa, X. Jin,Z. Li, X. Song, and G. Yang (2020), A hierarchical interannual wheat yield and grain protein prediction model using spectral vegetative indices and meteorological data,Field Crops Research, 248, 107711.
[21].Li, Y., Y. Tian, C. Yu, Z. Su, W. Jiang,Z. Li, J. Zhang, Y. Luo, and B. Li (2020), Present-day interseismic deformation characteristics of the Beng Co-Dongqiao conjugate fault system in central Tibet: implications from InSAR observations,Geophysical Journal International, in press.
[22].Liu, X., C. Zhao, Q. Zhang, Z. Lu, andZ. Li(2020), Deformation of the Baige landslide, Tibet, China, revealed through the integration of cross-platform ALOS/PALSAR-1 and ALOS/PALSAR-2 SAR observations,Geophysical Research Letters, in press.
[23].Luo, H., Z. Dong*,Z. Li*, and A. Yu (2020), Iterative-SGLRT for Multiple-Scatterer Detection in SAR Tomography,IEEE Geoscience and Remote Sensing Letters, in press.
[24].Luo, H.,Z. Li*, Z. Dong*, P. Liu, C. Wang, and J. Song (2020), A New Baseline Linear Combination Algorithm for Generating Urban Digital Elevation Models With Multitemporal InSAR Observations,IEEE Transactions on Geoscience and Remote Sensing, 58(2), 1120-1133.
[25].Wang, S., C. Xu,Z. Li, Y. Wen, and C. Song (2019), The 2018 Mw 7.5 Papua New Guinea earthquake: A possible complex multiple faults failure event with deep-seated reverse faulting,Earth and Space Science, in press.
[26].Song, C., C. Yu,Z. Li, Y. Li, and R. Xiao (2019), Coseismic Slip Distribution of the 2019 Mw 7.5 New Ireland Earthquake from the Integration of Multiple Remote Sensing Techniques,Remote Sensing, 11(23).
[27].Zhou, Z.,Z. Li, S. Waldron, and A. Tanaka (2019), InSAR Time Series Analysis of L-Band Data for Understanding Tropical Peatland Degradation and Restoration,Remote Sensing, 11(21).
[28].Wang, Z., Z. Li, Y. Liu, J. Peng, S. Long, and J. Mills (2019), A New Processing Chain for Real-Time Ground-Based SAR (RT-GBSAR) Deformation Monitoring,Remote Sensing, 11(20).
[29].Wang, B., C. Zhao, Q. Zhang, Z. Lu,Z. Li, and Y. Liu (2019), Sequential Estimation of Dynamic Deformation Parameters for SBAS-InSAR,IEEE Geoscience and Remote Sensing Letters, 1-5.
[30].Han, D., S. Liu, Y. Du, X. Xie, L. Fan, L. Lei,Z. Li, H. Yang, and G. Yang (2019), Crop Water Content of Winter Wheat Revealed with Sentinel-1 and Sentinel-2 Imagery,Sensors, 19(18).
[31].Wang, Z.,Z. Li, and J. Mills (2019), Modelling of instrument repositioning errors in discontinuous Multi-Campaign Ground-Based SAR (MC-GBSAR) deformation monitoring,ISPRS Journal of Photogrammetry and Remote Sensing, 157, 26-40.
[32].Luo, H.,Z. Li, Z. Dong, A. Yu, Y. Zhang, and X. Zhu (2019), Super-Resolved Multiple Scatterers Detection in SAR Tomography Based on Compressive Sensing Generalized Likelihood Ratio Test (CS-GLRT),Remote Sensing, 11(16), 1930.
[33].Zhang, P., L. Chen,Z. Li, J. Xing, X. Xing, and Z. Yuan (2019), Automatic Extraction of Water and Shadow from SAR Images Based on a Multi-Resolution Dense Encoder and Decoder Network,Sensors, 19(16), 3576.
[34].Wang, F., Z. Wang, H. Yang, Y. Zhao, Z. Zhang,Z. Li, and Z. Hussain (2019), Copula-Based Drought Analysis Using Standardized Precipitation Evapotranspiration Index: A Case Study in the Yellow River Basin, China,Water, 11(6), 1298.
[35].Chen, L., X. Cui,Z. Li, Z. Yuan, J. Xing, X. Xing, and Z. Jia (2019), A New Deep Learning Algorithm for SAR Scene Classification Based on Spatial Statistical Modeling and Features Re-Calibration,Sensors, 19(11).
[36].Li, Z.*, J. Taylor, L. Frewer, C. Zhao, G. Yang, Z. Li, Z. Liu, R. Gaulton, D. Wicks, H. Mortimer, X. Cheng, C. Yu, Z. Sun (2019), A comparative review on the state and advancement of Site-Specific Crop Management in the UK and China,Frontiers of Agricultural Science and Engineering, 6(2), 116–136.
[37].Hu, L., K. Dai, C. Xing,Z. Li, R. Tomas, B. Clark, X. Shi, M. Chen, R. Zhang, Q. Qiu, Y. Lu (2019). Land subsidence in Beijing and its relationship with geological faults revealed by Sentinel-1 InSAR observations.International Journal of Applied Earth Observations and Geoinformation, 82, 101886.
[38].Li, Z.,Z. Li, D. Fairbairn, N. Li, B. Xu, H. Feng, and G. Yang (2019), Multi-LUTs method for canopy nitrogen density estimation in winter wheat by field and UAV hyperspectral,Computers and Electronics in Agriculture, 162, 174-182.
[39].Li, T.; B. Zhang, X. Cheng, M. J. Westoby,Z. Li, C. Ma, F. Hui, M. Shokr, Y. Liu, Z. Chen, M. Zhai, X. Li,(2019), Resolving Fine-Scale Surface Features on Polar Sea Ice: A First Assessment of UAS Photogrammetry Without Ground Control,Remote Sensing, 11(7).
[40].Dai, K., Q. Xu,Z. Li, R. Tomás, X. Fan, X. Dong, W. Li, Z. Zhou, J. Gou, and P. Ran (2019), Post-disaster assessment of 2017 catastrophic Xinmo landslide (China) by spaceborne SAR interferometry,Landslides, 16(6), 1189-1199.
[41].Wang, F., H. Yang, Z. Wang, Z. Zhang, andZ. Li(2019), Drought Evaluation with CMORPH Satellite Precipitation Data in the Yellow River Basin by Using Gridded Standardized Precipitation Evapotranspiration Index,Remote Sensing, 11(5).
[42].Li, N., X. Huang, H. Zhao, X. Qiu, K. Deng, G. Jia,Z. Li, D. Fairbairn, and X. Gong (2019), A Combined Quantitative Evaluation Model for the Capability of Hyperspectral Imagery for Mineral Mapping,Sensors, 19(2), 328.
[43].Luo, H.,Z. Li*, J. Chen, C. Pearson, M. Wang, W. Lv, and H. Ding (2019), Integration of Range Split Spectrum Interferometry and conventional InSAR to monitor large gradient surface displacements,International Journal of Applied Earth Observation and Geoinformation, 74, 130-137.
[44].Yang, H., G. Yang, R. Gaulton, C. Zhao,Z. Li, J. Taylor, D. Wicks, A. Minchella, E. Chen, and X. Yang (2019), In-season biomass estimation of oilseed rape (Brassica napus L.) using fully polarimetric SAR imagery,Precision Agriculture, 20(3), 630-648(WoS highly cited paper).
[45].Feng, W., S. Samsonov, C. Liang, J. Li, F. Charbonneau, C. Yu, andZ. Li(2019), Source parameters of the 2017 Mw 6.2 Yukon earthquake doublet inferred from coseismic GPS and ALOS-2 deformation measurements,Geophysical Journal International, 216(3), 1517-1528.
[46].Long, S.*, A. Tong, Y. Yuan,Z. Li*, W. Wu, and C. Zhu (2018), New Approaches to Processing Ground-based SAR (GBSAR) Data for Deformation Monitoring,Remote Sensing, 10(12), 1936.
[47].Wang, F., Z. Wang, H. Yang, Y. Zhao,Z. Li, and J. Wu (2018), Capability of Remotely Sensed Drought Indices for Representing the Spatio–Temporal Variations of the Meteorological Droughts in the Yellow River Basin,Remote Sensing, 10(11), 1834.
[48].Li, T., A. Feng, Y. Liu,Z. Li, K. Guo, W. Jiang, J. Du, Z. Tian, W. Xu, Y. Liu, and Y. Wang (2018), Three-dimensional (3D) morphology ofSanshaYongle Blue Hole in the South China Sea revealed by underwater remotely operated vehicle,Scientific Reports, 8(1), 17122.
[49].Clark, B., G.D. Jones, H. Kendall, J. Taylor, Y. Cao, W. Li, C. Zhao, J. Chen, G. Yang, L. Chen,Z. Li, R. Gaulton, L. J. Frewer (2018). A proposed framework for accelerating technology trajectories in agriculture: a case study in China,Frontiers of Agricultural Science and Engineering, 5(4), 485-498.
[50].Yu, C.,Z. Li*, N. T. Penna, and P. Crippa (2018), Generic atmospheric correction model for Interferometric Synthetic Aperture Radar observations,Journal of Geophysical Research: Solid Earth, 123(10), 9202–9222.
[51].Li, Z., J. He, X. Xu, X. Jin, W. Huang, B. Clark, G. Yang*, andZ. Li*(2018), Estimating genetic parameters of DSSAT-CERES model with the GLUE method for winter wheat (Triticum aestivum L.) production,Computers and Electronics in Agriculture, 154, 213-221.
[52].Li, Z., X. Jin, G. Yang, J. Drummond, H. Yang, B. Clark,Z. Li*, and C. Zhao* (2018), Remote Sensing of Leaf and Canopy Nitrogen Status in Winter Wheat (Triticum aestivum L.) Based on N-PROSAIL Model,Remote Sensing, 10(9), 1463.
[53].Al-Husseinawi, Y.*,Z. Li*, P. Clarke, and S. Edwards (2018), Evaluation of the Stability of the Darbandikhan Dam after the 12 November 2017 Mw 7.3 Sarpol-e Zahab (Iran–Iraq Border) Earthquake,Remote Sensing, 10(9), 1426.
[54].Wang, Z.,Z. Li, and J. P. Mills (2018), A New Nonlocal Method for Ground-Based Synthetic Aperture Radar Deformation Monitoring,IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 1-13.
[55].Wang, Z.,Z. Li*, and J. Mills (2018), A new approach to selecting coherent pixels for ground-based SAR deformation monitoring,ISPRS Journal of Photogrammetry and Remote Sensing, 144, 412-422.
[56].Walters, R. J.,L.C. Gregory, L.N.J. Wedmore, T.J. Craig, K. McCaffrey, M. Wilkinson, J. Chen,Z. Li, J.R. Elliott, H. Goodall, F. Iezzi, F. Livio, A.M. Michetti, G. Roberts, and E. Vittori (2018), Dual control of fault intersections on stop-start rupture in the 2016 Central Italy seismic sequence,Earth and Planetary Science Letters, 500, 1-14(WoS highly cited paper).
[57].Liu, P., X. Chen,Z. Li, Z. Zhang, J. Xu, W. Feng, C. Wang, Z. Hu, W. Tu, and H. Li (2018), Resolving Surface Displacements in Shenzhen of China from Time Series InSAR,Remote Sensing, 10(7).
[58].Dai, K., G. Liu,Z. Li, D. Ma, X. Wang, B. Zhang, J. Tang, and G. Li (2018), Monitoring Highway Stability in Permafrost Regions with X-band Temporary Scatterers Stacking InSAR,Sensors, 18(6), 1876.
[59].Zhuang, J., J. Peng, C. Xu,Z. Li, A. Densmore, D. Milledge, J. Iqbal, and Y. Cui (2018), Distribution and characteristics of loess landslides triggered by the 1920 Haiyuan Earthquake, Northwest of China,Geomorphology, 314, 1-12.
[60].Yu, C.,Z. Li, J. Chen, and J.-C. Hu (2018), Small Magnitude Co-Seismic Deformation of the 2017 Mw 6.4 Nyingchi Earthquake Revealed by InSAR Measurements with Atmospheric Correction,Remote Sensing, 10(5), 684.
[61].Guo, J., X. Li,Z. Li*, L. Hu, G. Yang, C. Zhao, D. Fairbairn, D. Watson, and M. Ge (2018), Multi-GNSS precise point positioning for precision agriculture,Precision Agriculture, 19(5), 895-911.
[62].Li, N., Z. Xu, H. Zhao, X. Huang,Z. Li, J. Drummond, and D. Wang (2018), ISBDD Model for Classification of Hyperspectral Remote Sensing Imagery,Sensors, 18(3).
[63].Yu, C.,Z. Li*, N. T. Penna (2018),Interferometric synthetic aperture radar atmospheric correction using a GPS-based iterative tropospheric decomposition model.Remote Sensing of Environment. 204, 109-121(WoS highly cited paper).
[64].Yang, G., J. Liu, C. Zhao, Z. Li, Y. Huang, H. Yu, B. Xu, X. Yang, D. Zhu, X. Zhang, R. Zhang, H. Feng, X. Zhao, Z. Li, H. Li and H. Yang (2017), Unmanned aerial vehicle remote sensing for field-based crop phenotyping: Current status and perspectives,Frontiers in Plant Science, 8:1111(WoS highly cited paper).
[65].Deng, Z., Y. Ke, H. Gong, X. Li, andZ. Li(2017), Land subsidence prediction in Beijing based on PS-InSAR technique and improved Grey-Markov model,GIScience & Remote Sensing, 1-22.
[66].K?ncal, C.,Z. Li, J. Drummond, P. Liu, T. Hoey, and J.-P. Muller (2017), Landslide Susceptibility Mapping Using GIS-based Vector Grid File (VGF) Validating with InSAR Techniques: Three Gorges, Yangtze River (China),AIMS Geosciences, 3(1), 116-141.
[67].Wang, Z., J. Mills, W. Xiao, R. Huang, S. Zheng, and Z. Li (2017), A Flexible, Generic Photogrammetric Approach to Zoom Lens Calibration,Remote Sensing, 9(3).
[68].Tomás, R., andZ. Li*(2017), Earth Observations for Geohazards: Present and Future Challenges,Remote Sensing, 9(3).
[69].Yu, C., N. T. Penna, andZ. Li* (2017), Generation ofreal-time mode high resolution water vapor fields from GPS observations,Journal of Geophysical Research: Atmospheres, 122(3), 2008-2025.
[70].Feng, W., Lindsey, E., Barbot, S., Samsonov, S., Dai, K., Li, P.,Li, Z., Almeida, R., Chen, J. & Xu, X. (2017). Source characteristics of the 2015 Mw 7.8 Gorkha (Nepal) earthquake and its MW 7.2 aftershock from space geodesy,Tectonophysics. 712, 747-758.
[71].Wang, J., C. Xu, J. T. Freymueller, andZ. Li(2017), Probing Coulomb stress triggering effects for a Mw >6.0 earthquake sequence from 1997 to 2014 along the periphery of the Bayan Har block on the Tibetan Plateau,Tectonophysics, 694, 249-267.
[72].Chen, M., Tomás, R.,Li, Z., Motagh, M., Li, T., Hu, L., Gong, H., Li, X., Yu, J. & Gong, X. (2016). Imaging Land Subsidence Induced by Groundwater Extraction in Beijing (China) Using Satellite Radar Interferometry,Remote Sensing, 8(6), 468.
[73].Dai, K.,Li*, Z., Tomás, R., Liu, G., Yu, B., Wang, X., Cheng, H., Chen, J. & Stockamp, J. (2016). Monitoring activity at the Daguangbao mega-landslide (China) using Sentinel-1 TOPS time series interferometry,Remote Sensing of Environment, 186, 501-513.
[74].Li, Y., Zhang, J., Li, Z., Luo, Y., Jiang, W., Tian, Y. (2016).Measurement of subsidence in the Yangbajing geothermal fields, Tibet, from TerraSAR-X InSAR time series analysis.International Journal of Digital Earth, 9(7), 697-709.
[75].Li, P.,Li*, Z., Muller, J.P., Shi, C. & Liu, J. (2016). A new quality validation of global digital elevation models freely available in China,Survey Review, 1-12.
[76].Liu, P., Li, Q.,Li, Z., Hoey, T., Liu, G., Wang, C., Hu, Z., Zhou, Z. & Singleton, A. (2016). Anatomy of Subsidence in Tianjin from Time Series InSAR,Remote Sensing, 8.
[77].Liu, Y., Xu, C.,Li, Z., Wen, Y., Chen, J. & Li, Z., 2016. Time-Dependent Afterslip of the 2009 Mw 6.3 Dachaidan Earthquake (China) and Viscosity beneath the Qaidam Basin Inferred from Postseismic Deformation Observations,Remote Sensing, 8.
[78].Lu, C., Li, X.,Li, Z., Heinkelmann, R., Nilsson, T., Ge, M., & Schuh, H. (2015). GNSS tropospheric gradients with high temporal resolution and their effect on precise positioning.Journal of Geophysical Research - Atmosphere, 121, 912-930. doi: 10.1002/2015JD024255.
[79].Stockamp, J., Bishop, P., Li, Z., Petrie, E.J., Hansom, J. & Rennie, A. (2016). State-of-the-art in studies of glacial isostatic adjustment for the British Isles: a literature review,Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 106, 145-170.
[80].Cai, X., Li, Z., Scott, M.E., Li, X. & Tang, M. (2016). Short-term effects of atmospheric particulate matter on myocardial infarction: a cumulative meta-analysis,Environmental Science and Pollution Research, 1-10.
[81].Cai, X., Li, X., Fan, W., Yu, W., Wang, S.,Li, Z., Scott, M.E. & Li, X. (2016). Potassium and Obesity/Metabolic Syndrome: A Systematic Review and Meta-Analysis of the Epidemiological Evidence,Nutrients, 8.
[82].Dai, K., Liu, G.,Li, Z., Li, T., Yu, B., Wang, X., and Singleton, A. (2015). Extracting Vertical Displacement Rates in Shanghai (China) with Multi-Platform SAR Images.Remote Sensing, 7(8), 9542-9562.
[83].Du, P., Samat, A., Waske, B., Liu, S., &Li, Z.(2015). Random Forest and Rotation Forest for fully polarized SAR image classification using polarimetric and spatial features.ISPRS Journal of Photogrammetry and Remote Sensing, 105(0), 38-53(WoS highly cited paper).
[84].Lin, Y. N., Jolivet, R., Simons, M., Agram, P. S., Martens, H. R.,Li, Z., & Lodi, S. H. (2015). High interseismic coupling in the Eastern Makran (Pakistan) subduction zone.Earth and Planetary Science Letters, 420(0), 116-126.
[85].Liu, P., Li, Q.,Li, Z., Hoey, T., Liu, Y., and Wang, C. (2015). Land subsidence over oilfields in the Yellow River delta,Remote Sensing, 7(2), 1540-1564.
[86].Tomás, R.,Li, Z., Lopez-Sanchez, J. M., Liu, P., & Singleton, A. (2015). Using wavelet tools to analyse seasonal variations from InSAR time-series data: a case study of the Huangtupo landslide.Landslides, 1-14.
[87].Bao, F., Ni, S., Xie, J., Zeng, X.,Li, Z., and Li, Z. (2014). Validating Accuracy of Rayleigh-Wave Dispersion Extracted from Ambient Seismic Noise Via Comparison with Data from a Ground-Truth Earthquake.Bulletin of the Seismological Society of America. doi:10.1785/.
[88].Feng, W.,Z. Li, T. Hoey, Y. Zhang, R. Wang, S. Samsonov, and Z. Xu (2014), Patterns and Mechanisms of Coseismic and Postseismic Slips of the 2011Mw7.1 Van (Turkey) Earthquake Revealed by Multi-platform Synthetic Aperture Radar Interferometry,Tectonophysics, 632, 188-198. doi: 10.1016/j.tecto.2014.06.011.
[89].Singleton, A.,Li, Z., Hoey, T., and Muller, J.-P. (2014) Evaluating sub-pixel offset techniques as an alternative to D-InSAR for monitoring episodic landslide movements in vegetated terrain.Remote Sensing of Environment, 147, 133-144.
[90].Jolivet, R., Agram, P. S., Lin, N. Y., Simons, M., Doin, M.-P., Peltzer, G., &Li, Z.(2014). Improving InSAR geodesy using global atmospheric models.Journal of Geophysical Research - Solid Earth, 119(3), 2324-2341.
[91].Tomás, R.,Li, Z., Liu, P., Singleton, A., Hoey, T., & Cheng, X. (2014). Spatiotemporal characteristics of the Huangtupo landslide in the Three Gorges region (China) constrained by Radar Interferometry.Geophysical Journal International,doi:10.1093/gji/ggu017.
[92].Qu, W., Lu, Z., Zhang, Q.,Li, Z., Peng, J., Wang, Q., Drummond, J., and Zhang, M. (2014). Kinematic model of crustal deformation of Fenwei basin, China based on GPS observations.Journal of Geodynamics, 75(0), 1-8. doi: 10.1016/j.jog.2014.01.001.
[93].Wang, J., Xu, C., Freymueller, J. T.,Li, Z., & Shen, W. (2014). Sensitivity of Coulomb stress change to the parameters of the Coulomb failure model: A case study using the 2008 Mw 7.9 Wenchuan earthquake.Journal of Geophysical Research: Solid Earth, 119(4), 2012JB009860. doi: 10.1002/2012JB009860
[94].Feng, W.,Z. Li, J. R. Elliott, Y. Fukushima, T. Hoey, A. Singleton, R. Cook, and Z. Xu (2013), The 2011 Mw 6.8 Burma earthquake: Fault constraints provided by multiple SAR techniquesGeophysical Journal International, 195 (1): 650-660.
[95].Fielding, E. J., A. Sladen,Z. Li, J.-P. Avouac, R. Bürgmann, and I. Ryder (2013), Kinematic Fault Slip Evolution Model, Source Model of the 2008 M7.9 Wenchuan-Beichuan Earthquake in China from SAR Interferometry, GPS and Teleseismic Analysis and Implications for Longmen Shan Tectonics,Geophysical Journal International, 194(2), 1138-1166.
[96].Li, P., C. Shi,Z. Li, J.-P. Muller, J. Drummond, X. Li, T. Li, Y. Li, and J. Liu (2013), Evaluation of ASTER GDEM Using GPS Benchmarks and SRTM in China,International Journal of Remote Sensing, 34(5), 1744–1771.
[97].Liu, P.,Z. Li, T. Hoey, C. Kincal, J. Zhang, Q. Zeng, and J.-P. Muller (2013), Using advanced InSAR time series techniques to monitor landslide movements in Badong of the Three Gorges region, China,International Journal of Applied Earth Observation and Geoinformation, 21, 253-264.
[98].Walters, R. J., J. R. Elliott,Z. Liand B. Parsons (2013), Rapid strain accumulation on the Ashkabad fault (Turkmenistan) from atmosphere-corrected InSAR.J. Geophys. Res. - Solid Earth, 118, 1-17.
[99].Zhang, G., X. Shan, B. Delouis, C. Qu, J. Balestra,Z. Li, Y. Liu, and G. Zhang (2013), Rupture history of the 2010 Ms 7.1 Yushu earthquake by joint inversion of teleseismic data and InSAR measurements,Tectonophysics, 584, 129-137.
[100].Elliott, J. R., E. Nissen, P. England, J. Jackson, S. Lamb,Z. Li, M. Oehlers, and B. E. Parsons (2012), Slip in the 2010-2011 Canterbury Earthquakes, New Zealand,Journal of Geophysical Research - Solid Earth, 117, B03401.
[101].Hammond, W. C., G. Blewitt,Z. Li, H.-P. Plag, and C. W. Kreemer (2012), Contemporary uplift of the Sierra Nevada, western United States from GPS and InSAR measurements,Geology, 40, 667-670.
[102].Li, Z., P. Pasquali, A. Cantone, A. Singleton, G. Funning, and D. Forrest (2012), MERIS atmospheric water vapor correction model for Wide Swath Interferometric Synthetic Aperture Radar,IEEE Geoscience and Remote Sensing Letters, 9(2), 257-261.
[103].Li, P., C. Shi,Z. Li, J.-P. Muller, J. Drummond, X. Li, T. Li, Y. Li, and J. Liu (2012), Evaluation of ASTER GDEM ver2 Using GPS Benchmarks and SRTM ver4.1 in China,ISPRS Annals of Photogrammetry, Remote Sensing and Spatial Information Sciences, I-4, 181-186.
[104].Wen, Y.,Z. Li, C. Xu, I. Ryder, and R. Bürgmann (2012), Postseismic motion after the 2001 Mw 7.8 Kokoxili earthquake in Tibet observed by InSAR time series,J. Geophys. Res. - Solid Earth, 117, B08405.
[105].Zhang, Y., W. Feng, Y. Chen, L. Xu,Z. Li, and D. Forrest (2012), The 2009 Mw 6.3 L'Aquila earthquake: A new technique to locate the rupture initiation point (hypocenter) in the joint inversion of the earthquake rupture process,Geophysical Journal International, 191(3), 1417-1426.
[106].Li, Z., J. R. Elliott, W. Feng, J. A. Jackson, B. Parsons, and R. J. Walters, 2011. The 2010 Mw 6.8 Yushu (Qinghai, China) earthquake: Constraints provided by InSAR and body wave seismology,J. Geophys. Res. - Solid Earth, 116(B10), B10302.
[107].Li, Z., W. Qu, K. Young, and Q. Zhang (2011), Earthquake source parameters of the 2009 Mw 7.8 Fiordland (New Zealand) earthquake from L-band InSAR observations.Earthquake Science, 24(2), 199-206.
[108].Liu, Y., C. Xu,Z. Li, Y. Wen, and D. Forrest (2011), Interseismic slip rate of the Garze-Yushu fault belt in the Tibetan Plateau from C-band InSAR observations between 2003 and 2010,Advances in Space Research, 48(12), 2005-2015.
[109].Pi, X., A. Freeman, B. Chapman, P. Rosen, andZ. Li, 2011. Imaging Ionospheric Inhomogeneities Using Spaceborne Synthetic Aperture Radar,J. Geophys. Res. - Space Physics,116, A04303.
[110].Zha, X., Z. Dai, L. Ge, K. Zhang, X. Li, X. Chen,Z. Li, and R. Fu (2011), Fault Geometry and Slip Distribution of the 2010 Yushu Earthquakes Inferred from InSAR Measurement,Bulletin of the Seismological Society of America, 101(4), 1951-1958.
[111].Zhang, Q., W. Qu, Q. Wang, J. Peng, J. Drummond,Z. Li, and Q. Lin (2011), Analysis of present tectonic stress and regional ground fissure formation mechanism of the Weihe Basin,Survey Review, 43(322), 382-389.
[112].Elliott, J. R., R. J. Walters, P. C. England, J. A. Jackson,Z. Li, and B. Parsons, 2010. Extension on the Tibetan plateau: recent normal faulting measured by InSAR and body wave seismology,Geophys.J. Int.,DOI:10.1111/j.1365-246X.2010.04754.x. 183(2), 503-535.
[113].Xu, C., J. Wang,Z. Li, and J. Drummond (2010), Applying the Coulomb failure function with an optimally oriented plane to the 2008 Mw 7.9 Wenchuan earthquake triggering,Tectonophysics, 491(1-4), 119-126.
[114].Li, Z., Fielding, E.J. & Cross, P., 2009. Integration of InSAR time series analysis and water vapour correction for mapping postseismic deformation after the 2003 Bam, Iran Earthquake,IEEE TGRS, 47, 3220 - 3230, 2009.
[115].Li, Z., Fielding, E.J., Cross, P. & Preusker, R., 2009. Advanced InSAR atmospheric correction: MERIS/MODIS combination and stacked water vapour models,Int. J. Remote Sensing, 30, 3343-3363, 2009.
[116].Li, Z., Y. Liu, X. Zhou, P. Cross, and W. Feng (2009), Using small baseline Interferometric SAR to map nonlinear ground motion: A case study in northern Tibet,Journal of Applied Geodesy, 3, 163-170.
[117].Konca, A.O., Avouac, J.-P., Sladen, A., Meltzner, A.J., Sieh, K., Fang, P.,Li, Z., Galetzka, J., Genrich, J., Chlieh, M., Natawidjaja, D.H., Bock, Y., Fielding, E.J., Ji, C. & Helmberger, D.V., 2008. Partial rupture of a locked patch of the Sumatra megathrust during the 2007 earthquake sequence,Nature, 456, 631-635.
[118].Li, Z., Feng, W., Xu, Z., Cross, P. & Zhang, J., 2008. The 1998 MW5.7 Zhangbei-Shangyi earthquake revisited: a buried thrust fault revealed with interferometric synthetic aperture radar,Geoch. Geophy. Geosy., 9, Q04026.
[119].Samsonov, S., K. Tiampo, J. Rundle, andZ. Li, Application of DInSAR-GPS optimization for derivation of fine scale surface motion maps of southern California,IEEE Transactions on Geoscience and Remote Sensing, 45, 512-521, 2007.
[120].Li, Z., Fielding, E.J., Cross, P. & Muller, J.-P., 2006. Interferometric synthetic aperture radar atmospheric correction: MEdium Resolution Imaging Spectrometer and Advanced Synthetic Aperture Radar integration,Geophys. Res. Lett.,33, L06816.
[121].Li, Z., Fielding, E.J., Cross, P. & Muller, J.-P., 2006. Interferometric synthetic aperture radar atmospheric correction: GPS topography-dependent turbulence model,J. Geophys. Res.,111, B02404.
[122].Li, Z., Muller, J.-P., Cross, P., Albert, P., Fischer, J. & Bennartz, R., 2006. Assessment of the potential of MERIS near-infrared water vapour products to correct ASAR interferometric measurements,Int. J. Remote Sensing, 27, 349-365.
[123].Rao, K.S., H.K. Al-Jassar, S. Phalke, Y.S. Rao, J.-P. Muller, andZ. Li, A study on the applicability of repeat-pass SAR interferometry for generating DEMs over several Indian test sites,International Journal of Remote Sensing,27(3), 595–616,doi: 10.1080/0**39248, 2006.
[124].Li, Z., Muller, J.-P., Cross, P. & Fielding, E.J., 2005. Interferometric synthetic aperture radar (InSAR) atmospheric correction: GPS, Moderate Resolution Imaging Spectroradiometer (MODIS), and InSAR integration,J. Geophys. Res.,110, B03410.
[125].Li, Z., Muller, J.-P. & Cross, P., 2003. Comparison of precipitable water vapor derived from radiosonde, GPS, and Moderate-Resolution Imaging Spectroradiometer measurements,J. Geophys. Res.,108, 4651.






Books
[1].Li, Z.,and R. Tomás (2017), Earth Observations for Geohazards (Volume 1), MDPI AG, St. Alban-Anlage 66 Basel, Switzerland. P386.ISBN978-3-03842-399-7 (PDF),ISBN978-3-03842-398-0 (Pbk).

[2].Li, Z.,and R. Tomás (2017), EarthObservationsfor Geohazards (Volume 2), MDPI AG, St. Alban-Anlage 66 Basel, Switzerland. P490. ISBN978-3-03842-401-7 (PDF),ISBN978-3-03842-400-0 (Pbk).




科技成果
李振洪教授领导的影像大地测量团队在对地观测(Earth observation)研究领域做了多项开创性的工作:
(i) 开发了多个大气改正模型用于改正卫星雷达信号中大气(尤其是大气水汽)延迟影响,从而将卫星影像重复轨道干涉测量(InSAR)的地表形变量从厘米级提高到亚厘米级精度;2017年6月6日公布了通用型的大气改正模型(GACOS),可在全球任何地区任何时间应用,增强了InSAR技术的可靠性及其应用范围;GACOS目前已经成为InSAR领域一个通用型的大气改正工具。
(ii) 2017年3月与中国空间技术研究院(中国航天科技集团公司五院)同仁一道,首次实现了高分三号卫星SAR影像干涉测量,这也是我国民用雷达卫星影像首次干涉测量。
(iii) 作为国际上第一个利用卫星雷达技术的InSAR研究团队,对2010年青海玉树地震做了快速反应,将研究成果应用到了减灾中;并先后研究了2007苏门答腊,2008年汶川,2011土耳其凡城和2015尼泊尔等地震,也深入研究了三峡库区和四川地区多个地质滑坡,为地质灾害的监测及其机理的研究做了一些工作。李振洪教授团队对2017年6月24日茂县滑坡的快速反应应用于前线减灾行动,受到联合国减少灾害风险办事处(UNISDR),欧洲空间局,China Daily等机构报道。
(iv) 利用卫星雷达技术研究了多个地区的地面沉降,包括北京,天津,西安,上海,深圳,杭州和江苏苏锡常。其中2016年6月2日正式发表的北京地面沉降的成果受到了社会的广泛关注,包含《新华社》,《卫报》和《洛杉矶时报》在内的20多家全球主要媒体进行了追踪报道。




荣誉奖励
2018The2018 RAS Group Achievement Award in Geophysicsacknowledges COMET’s success in using satellite and ground-based observationsand geophysical modelling to study earthquakes, volcanoes and tectonics across the globe.

2018The2017 Remote Sensing Best Guest Editor Awardto the Special Issue of Remote Sensing titled Earth Observations for Geohazards(Guest editors: Professor Zhenhong Li and Professor Roberto Tomás Jover).

2016ESA and National Remote Sensing Centre of China Award of Excellence for the DRAGON-3 project exploring Crustal Deformation and Infrastructure.




工作经历
2019-至今: 长安大学,教授
2020-至今: 英国纽卡斯尔大学,访问教授
2014-2020: 英国纽卡斯尔大学,教授
2011-2014: 英国格拉斯哥大学,高级讲师(英制副教授)
2008-2011: 英国格拉斯哥大学,讲师(英制助理教授)
2005-2008: 英国伦敦大学学院,博士后

2015-2017: 武汉大学地球空间信息技术协同创新中心,客座研究员
2012-2015: 武汉大学,珞珈讲座教授
2010-2010: 美国航空航天喷气动力实验室,访问科学家















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