|
副高人员
赵伟
时间:2020-08-26 来源:
文本大小:【大 | 中 | 小】 【打印】
姓名 |
赵伟 |
性别 |
男 |
|
职务 |
数字山地中心学术秘书 |
职称 |
青年研究员 |
通讯地址 |
四川省成都市武侯区人民南路四段9号,中国科学院、水利部成都山地灾害与环境研究所 |
邮编 |
610041 |
电子邮件 |
zhaow@imde.ac.cn |
简 历 |
- 2002.9-2006.7:北京师范大学,地理信息系统专业,学士
- 2006.9-2012.7:中国科学院地理科学与资源研究所,地图学与地理信息系统,理学博士
- 2009.9-2011.9:法国斯特拉斯堡大学,国家公派博士研究生
- 2012.7 -2015.11:中国科学院、水利部成都山地灾害与环境研究所,助理研究员
- 2015.11- 至 今:中国科学院、水利部成都山地灾害与环境研究所,副研究员
|
研究领域 |
山地陆表过程参量遥感定量反演理论、方法及应用研究 |
获奖及荣誉 |
- 2017年 中国地理学会第十四届全国青年地理科技奖
- 2017年 四川省地理学会第三届青年地理科技奖
- 2017年 科技部国家遥感中心2017年度“遥感青年科技人才创新资助计划”
- 2016年 “一带一路”空间认知国际学术研讨会最佳口头报告奖
- 2015年 中国科学院成都山地所尼泊尔4·25地震科技救灾先进表彰
|
代表性论著 |
- Zhao, W.,Sánchez, N., Lu, H., & Li, A. (2018). A spatial downscaling approach for the SMAP passive surface soil moisture product using random forest regression.Journal of Hydrology, 563, 1009-1024.
- Zhao, W., Sánchez, N., & Li, A. (2018). Triangle Space-Based Surface Soil Moisture Estimation by the Synergistic Use of In Situ Measurements and Optical/Thermal Infrared Remote Sensing: An Alternative to Conventional Validations.IEEE Transactions on Geoscience and Remote Sensing, 1-13.
- He, J.,Zhao, W.*, Li, A., Wen, F., & Yu, D. (2018). The impact of the terrain effect on land surface temperature variation based on Landsat-8 observations in mountainous areas.International Journal of Remote Sensing, 1-20.
- Zhao, W., Li, A., & Zhao, T. (2017). Potential of Estimating Surface Soil Moisture with the Triangle-Based Empirical Relationship Model.IEEE Transactions on Geoscience and Remote Sensing, 55 (11), 6494 – 6504.
- Zhao, W.,Li, A., Jin, H., Zhang, Z., Bian, J., & Yin, G. (2017). Performance Evaluation of the Triangle-Based Empirical Soil Moisture Relationship Models Based on Landsat-5 TM Data and In Situ Measurements.IEEE Transactions on Geoscience and Remote Sensing, 55(5), 2632-2645.
- Zhao, W., Li, A., Nan, X., Zhang, Z., & Lei, G. (2017). Postearthquake Landslides Mapping from Landsat-8 Data for the 2015 Nepal Earthquake Using a Pixel-Based Change Detection Method.IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 10(5), 1758-1768.
- A. Li, W. Deng, andW. Zhao, "Land Cover Change and Its Eco-environmental Responses in Nepal," ed: Springer, 2017.
- Huang, P.,Zhao, W.*, & Li, A. (2017). The Preliminary Investigation on the Uncertainties Associated with Surface Solar Radiation Estimation in Mountainous Areas.IEEE Geoscience and Remote Sensing Letters, 14(7), 1071-1075
- Zhao, W., & Li, A. (2015). A Review on Land Surface Processes Modelling over Complex Terrain. Advances in Meteorology, 2015, 17.
- Li, A.,Zhao, W.*, & Deng, W. (2015). A Quantitative Inspection on Spatio-Temporal Variation of Remote Sensing-Based Estimates of Land Surface Evapotranspiration in South Asia.Remote Sensing, 7, 4726-4752.
- Xia, H.#,Zhao, W.#, Li, A., Bian, J., & Zhang, Z. (2017). Subpixel Inundation Mapping Using Landsat-8 OLI and UAV Data for a Wetland Region on the Zoige Plateau, China.Remote Sensing, 9(1), 31
- Zhao, W., & Li, A. (2015). Zhao, W., & Li, A. (2015). A comparison study on empirical microwave soil moisture downscaling methods based on the integration of microwave-optical/IR data on the Tibetan Plateau.International Journal of Remote Sensing, 36, 4986-5002
- Zhao, W., Li, A., & Deng, W. (2014). Surface Energy Fluxes Estimation Over the South Asia Subcontinent Through Assimilating MODIS/TERRA Satellite Data With In Situ Observations and GLDAS Product by SEBS Model.IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 7, 3704-3712.
- Zhao, W., Li, A., Bian, J., Jin, H., & Zhang, Z. (2014). A Synergetic Algorithm for Mid-Morning Land Surface Soil and Vegetation Temperatures Estimation Using MSG-SEVIRI Products and TERRA-MODIS Products.Remote Sensing, 6, 2213-2238.
- Zhao, W., & Li, A. (2013). A Downscaling Method for Improving the Spatial Resolution of AMSR-E Derived Soil Moisture Product Based on MSG-SEVIRI Data.Remote Sensing, 5, 6790-6811.
- Zhao, W., & Li, Z.-L. (2013). Sensitivity study of soil moisture on the temporal evolution of surface temperature over bare surfaces.International Journal of Remote Sensing, 34, 3314-3331.
- Zhao, W., Li, Z.-L., Wu, H., Tang, B.-H., Zhang, X., Song, X., & Zhou, G. (2013). Determination of bare surface soil moisture from combined temporal evolution of land surface temperature and net surface shortwave radiation.Hydrological Processes, 27, 2825-2833.
- Zhao W, Li A, Huang P, et al. Surface soil moisture relationship model construction based on random forest method[C]//Geoscience and Remote Sensing Symposium (IGARSS), 2017 IEEE International. IEEE, 2017: 2019-2022.
- Zhao, W., Li, A., Deng, W., (2014). Spatial and temporal variation of evapotranspiration estimated by MODIS data over South Asia, In,2014 IEEE InternationalGeoscience andRemoteSensing Symposium (IGARSS),(pp. 3049-3052)
- Zhao, W., Li, A., & Deng, W. (2013). Time series evapotranspiration estimation based on MODIS/Terra satellite data over South Asia. In,2013 IEEE InternationalGeoscience and Remote Sensing Symposium (IGARSS),(pp. 473-476)
- Zhao W., & Li Z.-L., (2011), Surface soilmoistureretrieval from the temporal evolution of surface temperature for bare surfaces,Progress In Electromagnetics Research Symposium, September 12-16, 2011, Suzhou, China, 359-363.
- Zhao W., & Li Z.-L., (2010), Land surface soil moisture retrieval from temporal change of land surface temperature: A sensitivity study,3rdInternationalSymposium; Recent advances in Quantitative remote sensing, 26 September-1 October 2010, Torrent, Spain, 507-512.
- Zhao W., & Li Z.-L., (2010), Surface soil moisture estimation from SEVIRI data onboard MSG satellite, IEEEInternational Geoscience andRemoteSensing Symposium, ISBN: 978-1-4244-9564-1, 3865-3868.
- 赵伟, 黄盼, 李爱农. 山地地表蒸散发遥感估算研究现状, 山地学报,2017,35,6,908-918
- 赵伟, 李爱农, 张正健, 边金虎, 靳华安, 尹高飞, 南希, 雷光斌. 基于Landsat8热红外遥感数据的山地地表温度地形效应研究, 遥感技术与应用, 2016, 31(1): 43-53
|
在研项目 |
- 中国科学院成都山地灾害与环境研究所“青年百人”团队项目“山地地表水热通量遥感定量反演与多源数据数据同化”(2016-2018)
- 中国科学院青年创新促进会项目(2016-2019)
- 国家自然科学基金面上基金项目“山地地表水热通量遥感反演的地形影响及建模研究”(2018-2021)
- 国家自然科学基金重点项目“山地典型生态参量遥感反演建模及其时空表征能力研究”课题三(2017-2021)
- 中国科学院成都山地所“一三五”重点培育方向项目“南亚地缘合作关键资源环境变化过程与空间信息服务”(2017-2020)
|
|