基本信息

吴骅  男  博导  中国科学院地理科学与资源研究所
电子邮件: wuhua@igsnrr.ac.cn
通信地址: 北京市朝阳区大屯路甲11号中国科学院地理科学与资源研究所
邮政编码: 100101

研究领域

研究领域:定量遥感

主要研究方向:热红外遥感、尺度转换、真实性检验、无人机遥感、遥感大数据分析等

招生信息

招生专业:地图学与地理信息系统

招生方向:热红外遥感、遥感大数据分析、无人机遥感等

招生专业
070503-地图学与地理信息系统
招生方向
定量遥感

教育背景

2006-09--2010-06   中国科学院地理科学与资源研究所   理学博士
2003-09--2006-06   北京师范大学   理学硕士
1999-09--2003-06   武汉大学   工学学士
学历

工作经历

2019年12月-至今,中科院地理科学与资源研究所,资源与环境信息系统国家重点实验室,研究员;

2014年12月-2019年11月,中科院地理科学与资源研究所,资源与环境信息系统国家重点实验室,副研究员;

2010年7月-2014年11月,中科院地理科学与资源研究所,资源与环境信息系统国家重点实验室,助理研究员。

教授课程

热红外遥感
遥感图像处理-A
遥感图像处理-B
遥感图像处理
遥感图像处理B
遥感图像处理方法B

专利与奖励

   
奖励信息
(1) 地表水热关键参数热红外遥感反演理论与方法, 二等奖, 国家级, 2019
(2) 高等学校科学研究优秀成果奖自然科学奖二等奖, 二等奖, 部委级, 2017
(3) 北京市科学技术奖, 三等奖, 市地级, 2015
专利成果
[1] 吴骅, 李秀娟, 倪丽, 李召良, 周成虎. 一种高光谱热红外地表温度和发射率波谱协同反演方法. CN: CN115374390B, 2023-01-24.
[2] 段四波, 茹晨, 李召良, 吴骅, 刘萌. 一种考虑城市三维几何结构影响的地表温度反演方法. CN: CN114152350A, 2022-03-08.
[3] 吴骅. 一种外场便携式地表发射率测量装置. CN: CN209624363U, 2019-11-12.
[4] 吴骅. 一种主被动发射率辅助测量装置. CN: CN209624372U, 2019-11-12.
[5] 吴骅. 一种适用于野外环境的高精度红外亮温采集装置. CN: CN209623868U, 2019-11-12.
[6] 吴骅. 一种适于遥感热红外定标与验证的水体温度测量装置. CN: CN209623866U, 2019-11-12.
[7] 吴骅. 一种遥感测绘仪. CN: CN209431019U, 2019-09-24.
[8] 吴骅. 一种遥感测绘标识杆. CN: CN209431023U, 2019-09-24.
[9] 吴骅. 一种大气等效下行辐射亮温测量装置. CN: CN209372240U, 2019-09-10.
[10] 吴骅. 一种外场多角度地表温度测量仪. CN: CN209372233U, 2019-09-10.
[11] 吴骅. 一种具有外场自标定功能的地表温度采集装置. CN: CN209372234U, 2019-09-10.
[12] 吴骅. 一种遥感装置. CN: CN209181811U, 2019-07-30.
[13] 吴骅. 一种遥感器. CN: CN209181793U, 2019-07-30.
[14] 吴骅, 李静, 李召良. 一种异质下垫面地表温度全天时采样优化布设方法. CN: CN109933891A, 2019-06-25.
[15] 吴骅. 一种地表温度鲁棒降尺度方法. CN: CN109885959A, 2019-06-14.
[16] 陈虹, 吴骅, 李召良. 一种遥感产品像元尺度真值的获取方法. CN: CN109635243A, 2019-04-16.
[17] 唐伯惠, 张子阳, 纪梦豪, 李召良, 唐荣林, 吴骅. 一种适用于不同冠层高度的日光诱导植被荧光测量系统. CN: CN109580558A, 2019-04-05.
[18] 吴骅. 一种获取像元尺度地表宽波段半球发射率的方法. CN: CN109214122A, 2019-01-15.
[19] 吴骅, 张雨泽, 段四波, 房世峰, 李召良. 一种非接触式地表温度测定仪. CN: CN207622871U, 2018-07-17.
[20] 陈虹, 吴骅, 李召良. 一种基于小波变换的叶面积指数空间尺度误差校正方法. CN: CN107977338A, 2018-05-01.
[21] 吴骅, 张雨泽, 段四波, 房世峰, 李召良. 一种非接触式地表温度测定仪及方法. CN: CN107727244A, 2018-02-23.
[22] 唐荣林, 李召良, 姜亚珍, 唐伯惠, 吴骅, 邸苏闯, 刘萌, 王桐. 一种有效的MODIS地表温度角度校正方法. CN: CN106918394A, 2017-07-04.
[23] 唐荣林, 李召良, 姜亚珍, 唐伯惠, 吴骅, 刘萌, 王桐. 一种基于端元信息模型估算土壤和植被蒸散发的方法. CN: CN106771073A, 2017-05-31.
[24] 唐荣林, 李召良, 刘萌, 姜亚珍, 唐伯惠, 吴骅, 王桐. 一种遥感反演瞬时蒸散发日尺度扩展的新方法. CN: CN106709268A, 2017-05-24.
[25] 吴骅, 张雨泽, 李召良, 姜小光. 基于小波变换的高光谱热红外地表温度与发射率分离方法. CN: CN106404178A, 2017-02-15.
[26] 周芳成, 吴骅, 李召良, 段四波, 唐伯惠, 唐荣林. 一种从被动微波数据估算瞬时地表发射率的方法. CN: CN105930664A, 2016-09-07.
[27] 吴骅, 李召良. 一种基于查找表的热红外大气校正参数化方法. CN: CN105928620A, 2016-09-07.
[28] 唐荣林, 李召良, 姜亚珍, 唐伯惠, 吴骅. 一种自动确定全天无云和部分有云天气情况的方法. CN: CN105911613A, 2016-08-31.
[29] 吴骅, 张雨泽, 倪丽, 李召良, 唐伯惠, 唐荣林, 房世峰. 一种轻便高光谱地表发射率无损测定装置. CN: CN205246215U, 2016-05-18.
[30] 韩晓静, 唐荣林, 段四波, 唐伯惠, 吴骅, 冷佩, 李召良. 一种FY-3C被动微波数据估算土壤湿度的方法. CN: CN105466957A, 2016-04-06.
[31] 吴骅, 张雨泽, 倪丽, 李召良, 唐伯惠, 唐荣林, 房世峰. 一种轻便高光谱地表发射率无损测定装置及优化测定方法. CN: CN105424196A, 2016-03-23.
[32] 吴骅, 李召良, 房世峰, 倪丽, 唐伯惠, 唐荣林. 一种校正尺度效应的中低分辨率遥感产品真值获取方法. CN: CN105389466A, 2016-03-09.
[33] 吴骅, 张雨泽, 房世峰, 李召良, 姜小光, 唐伯惠, 唐荣林. 一种野外便携式高光谱地表发射率辅助测量装置. CN: CN204027699U, 2014-12-17.
[34] 唐伯惠, 彭硕, 李召良, 吴骅, 唐荣林, 王界. 一种多角度全自动地表精细发射率谱采集系统装置. CN: CN104155007A, 2014-11-19.
[35] 吴骅, 张雨泽, 房世峰, 李召良, 姜小光, 唐伯惠, 唐荣林. 一种野外便携式高光谱地表发射率辅助测量装置及方法. CN: CN104075804A, 2014-10-01.
[36] 唐荣林, 李召良, 唐伯惠, 吴骅. 基于MODIS数据的地表蒸散发全遥感反演方法及系统. CN: CN103810387A, 2014-05-21.
[37] 唐荣林, 李召良, 唐伯惠, 吴骅. 一种地表温度-植被指数特征空间干湿限选择的方法及装置. CN: CN103793596A, 2014-05-14.
[38] 吴骅, 李召良, 唐伯惠, 唐荣林, 倪丽. 星载多光谱红外传感器交叉辐射定标方法. CN: CN103728609A, 2014-04-16.
[39] 张仁华, 孙晓敏, 田静, 朱治林, 唐新斋, 苏红波, 陈少辉, 唐伯惠, 吴骅, 范熙伟. 双黑体箱调温水浴比辐射率测定仪及其测定方法. CN: CN103674260A, 2014-03-26.
[40] 田静, 张仁华, 于静洁, 苏红波, 孙晓敏, 陈少辉, 唐新斋, 荣媛, 杨永民, 唐伯惠, 吴骅. 一种适用于傅里叶光谱仪积分球的倒向器及制作和测试方法. CN: CN103674242A, 2014-03-26.
[41] 唐伯惠, 刘伟伟, 李召良, 吴骅, 唐荣林, 彭硕. 一种热红外载荷便携式野外定标及水面温度验证系统装置. CN: CN103616078A, 2014-03-05.
[42] 唐伯惠, 吴骅, 唐荣林. 一种同时确定地表窄波段和宽波段比辐射率的方法及装置. CN: CN102901563A, 2013-01-30.
[43] 张仁华, 田静, 苏红波, 杨永民, 陈少辉, 唐伯惠, 吴骅, 孙晓敏, 唐新斋, 朱治林. 一种102F傅立叶光谱仪的适配器及使用方法. CN: CN102879106A, 2013-01-16.
[44] 唐伯惠, 段四波, 吴骅. 无人机光学遥感影像数据处理方法及装置. CN: CN102736128A, 2012-10-17.

出版信息

   
发表论文
[1] Li, Yitao, Li, ZhaoLiang, Wu, Hua, Zhou, Chenghu, Liu, Xiangyang, Leng, Pei, Yang, Peng, Wu, Wenbin, Tang, Ronglin, Shang, GuoFei, Ma, Lingling. Biophysical impacts of earth greening can substantially mitigate regional land surface temperature warming. NATURE COMMUNICATIONS[J]. 2023, 14(1): http://dx.doi.org/10.1038/s41467-023-35799-4.
[2] Li, ZhaoLiang, Wu, Hua, Duan, SiBo, Zhao, Wei, Ren, Huazhong, Liu, Xiangyang, Leng, Pei, Tang, Ronglin, Ye, Xin, Zhu, Jinshun, Sun, Yingwei, Si, Menglin, Liu, Meng, Li, Jiahao, Zhang, Xia, Shang, Guofei, Tang, BoHui, Yan, Guangjian, Zhou, Chenghu. Satellite Remote Sensing of Global Land Surface Temperature: Definition, Methods, Products, and Applications. REVIEWS OF GEOPHYSICS[J]. 2023, 61(1): 77-, https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000998878000001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=3a85505900f77cc629623c3f2907beab.
[3] Li, Yitao, Wu,Hua, Chen, Hong, Zhu, Xinming. A Robust Framework for Resolution Enhancement of Land Surface Temperature by Combining Spatial Downscaling and Spatiotemporal Fusion Methods. IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING[J]. 2023, 61: 4404514-, http://apps.webofknowledge.com/CitedFullRecord.do?product=UA&colName=WOS&SID=5CCFccWmJJRAuMzNPjj&search_mode=CitedFullRecord&isickref=WOS:001017380100001.
[4] Yitao Li, Zhao-Liang Li, Hua Wu, Xiangyang Liu, Menglin Si, Pengke Shen. Biophysical impact of multiple surface forcings on land surface temperature over eastern China. Journal of Geophysical Research-Atmosphere[J]. 2023, 128: e2023JD039315-, [5] Wang, Xiaohu, Fang, Shifeng, Yang, Yichen, Du, Jiaqiang, Wu, Hua. A New Method for Crop Type Mapping at the Regional Scale Using Multi-Source and Multi-Temporal Sentinel Imagery. REMOTE SENSING[J]. 2023, 15(9): 2466-, http://dx.doi.org/10.3390/rs15092466.
[6] Yang, Yichen, Fang, Shifeng, Wu, Hua, Du, Jiaqiang, Wang, Xiaohu, Chen, Rensheng, Liu, Yongqiang, Wang, Hao. High-Resolution Inversion Method for the Snow Water Equivalent Based on the GF-3 Satellite and Optimized EQeau Model. REMOTE SENSING[J]. 2022, 14(19): http://dx.doi.org/10.3390/rs14194931.
[7] 韦乐田, 姜小光, 吴骅, 茹晨. 城市地表热辐射方向性研究进展综述. 地球信息科学学报[J]. 2022, 24(4): 617-630, http://bjvip.las.ac.cn/qk/86408A/202204/7107113481.html.
[8] Li, Jing, Li, ZhaoLiang, Wu, Hua, You, Nanshan. Trend, seasonality, and abrupt change detection method for land surface temperature time-series analysis: Evaluation and improvement. REMOTE SENSING OF ENVIRONMENT[J]. 2022, 280: http://dx.doi.org/10.1016/j.rse.2022.113222.
[9] Si, Menglin, Li, ZhaoLiang, Nerry, Francoise, Tang, BoHui, Leng, Pei, Wu, Hua, Zhang, Xia, Shang, Guofei. Spatiotemporal pattern and long-term trend of global surface urban heat islands characterized by dynamic urban-extent method and MODIS data. ISPRS JOURNAL OF PHOTOGRAMMETRY AND REMOTE SENSING[J]. 2022, 183: 321-335, http://dx.doi.org/10.1016/j.isprsjprs.2021.11.017.
[10] 吴骅, 李秀娟, 李召良, 段四波, 钱永刚. 高光谱热红外遥感:现状与展望. 遥感学报[J]. 2021, 25(8): 1567-1590, http://www.ygxb.ac.cn/zh/article/doi/10.11834/jrs.20211306/.
[11] 李娜娜, 吴骅, 栾庆祖. 城市地表温度空间降尺度研究—以北京市为例. 遥感学报[J]. 2021, 25(8): 1808-1820, http://www.ygxb.ac.cn/zh/article/doi/10.11834/jrs.20211309/.
[12] Nie, Pingjing, Wu, Hua, Xu, Jie, Wei, Letian, Zhu, Haitao, Ni, Li. Thermal Pollution Monitoring of Tianwan Nuclear Power Plant for the Past 20 Years Based on Landsat Remote Sensed Data. IEEE JOURNAL OF SELECTED TOPICS IN APPLIED EARTH OBSERVATIONS AND REMOTE SENSING[J]. 2021, 14: 6146-6155, http://dx.doi.org/10.1109/JSTARS.2021.3088529.
[13] 葛咏, 李强子, 凌峰, 张源, 姚永慧, 刘庆生, 董文, 吴骅, 李毅, 任周鹏. “一带一路”关键节点区域极端气候风险评价及应对策略. 中国科学院院刊[J]. 2021, 36(2): 170-178, http://lib.cqvip.com/Qikan/Article/Detail?id=7104008051.
[14] 颜佳楠, 陈虹, 姚光林, 吴骅. 基于XGBoost的LST空间降尺度方法. 无线电工程[J]. 2021, 51(12): 1508-1516, http://lib.cqvip.com/Qikan/Article/Detail?id=7106156569.
[15] 程元良, 吴骅, 李召良, 钱永刚. FY-3D MERSI-II地表温度遥感反演与验证. 遥感学报[J]. 2021, 25(8): 1792-1807, http://www.ygxb.ac.cn/zh/article/doi/10.11834/jrs.20211302/.
[16] Zhou, Qu, Tian, Liqiao, Li, Jian, Wu, Hua, Zeng, Qun. Radiometric Cross-Calibration of Large-View-Angle Satellite Sensors Using Global Searching to Reduce BRDF Influence. IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING[J]. 2021, 59(6): 5234-5245, http://dx.doi.org/10.1109/TGRS.2020.3019969.
[17] 段四波, 茹晨, 李召良, 王猛猛, 徐涵秋, 历华, 吴鹏海, 占文凤, 周纪, 赵伟, 任华忠, 吴骅, 唐伯惠, 张霞, 尚国琲, 覃志豪. Landsat卫星热红外数据地表温度遥感反演研究进展. 遥感学报[J]. 2021, 25(8): 1591-1617, http://www.ygxb.ac.cn/zh/article/doi/10.11834/jrs.20211296/.
[18] 唐荣林, 王晟力, 姜亚珍, 李召良, 刘萌, 唐伯惠, 吴骅. 基于地表温度—植被指数三角/梯形特征空间的地表蒸散发遥感反演综述. 遥感学报[J]. 2021, 25(1): 65-82, http://www.ygxb.ac.cn/zh/article/doi/10.11834/jrs.20210388/.
[19] 程元良, 吴骅, 李召良, 钱永刚. FY-3D MERSI-Ⅱ地表温度遥感反演与验证. 遥感学报[J]. 2021, 25(8): 1792-1807, http://lib.cqvip.com/Qikan/Article/Detail?id=7105640474.
[20] Qian, Yonggang, Wang, Ning, Li, Kun, Wu, Hua, Duan, Sibo, Liu, Yaokai, Ma, Lingling, Gao, Caixia, Qiu, Shi, Tang, Lingli, Li, Chuanrong. Retrieval of Surface Temperature and Emissivity From Ground-Based Time-Series Thermal Infrared Data. IEEE JOURNAL OF SELECTED TOPICS IN APPLIED EARTH OBSERVATIONS AND REMOTE SENSING[J]. 2020, 13: 284-292, https://doaj.org/article/554fd4034df84836a25b44dd0c657fef.
[21] Li, Jing, Wu, Hua, Li, ZhaoLiang. An optimal sampling method for multi-temporal land surface temperature validation over heterogeneous surfaces. ISPRS JOURNAL OF PHOTOGRAMMETRY AND REMOTE SENSING[J]. 2020, 169: 29-43, http://dx.doi.org/10.1016/j.isprsjprs.2020.08.024.
[22] Fan, Dong, Ni, Li, Jiang, Xiaoguang, Fang, Shifeng, Wu, Hua, Zhang, Xiaoping. Spatiotemporal Analysis of Vegetation Changes Along the Belt and Road Initiative Region From 1982 to 2015. IEEE ACCESS[J]. 2020, 8: 122579-122588, https://doaj.org/article/bae90d2326f14f6793a1f21f766e0be8.
[23] 应王敏, 刘晓洁, 房世峰, 李秀娟, 赖明, 张旭振, 吴骅. 基于机器学习的日尺度短波净辐射气候资源遥感反演研究. 资源科学[J]. 2020, 42(10): 1998-2009, http://lib.cqvip.com/Qikan/Article/Detail?id=7103286879.
[24] Duan, SiBo, Li, ZhaoLiang, Gao, Caixia, Zhao, Wei, Wu, Hua, Qian, Yonggang, Leng, Pei, Gao, Maofang. Influence of adjacency effect on high-spatial-resolution thermal infrared imagery: Implication for radiative transfer simulation and land surface temperature retrieval. REMOTE SENSING OF ENVIRONMENT[J]. 2020, 245: http://dx.doi.org/10.1016/j.rse.2020.111852.
[25] 李婉, 牛陆, 陈虹, 吴骅. 基于随机森林算法的地表温度鲁棒降尺度方法. 地球信息科学学报[J]. 2020, 22(8): 1666-, http://lib.cqvip.com/Qikan/Article/Detail?id=7103043321.
[26] Shaofei Wang, Ji Zhou, Tianjie Lei, Hua Wu, Xiaodong Zhang, Jin Ma, Hailing Zhong. Estimating Land Surface Temperature from Satellite Passive Microwave Observations with the Traditional Neural Network, Deep Belief Network, and Convolutional Neural Network. REMOTE SENSING[J]. 2020, 12(17): https://doaj.org/article/3b9a98ba1a9348aab2ee9b0141baa406.
[27] Zhang, YuZe, Ni, Li, Wu, Hua, Jiang, XiaoGuang, Han, Ying. Fast and accurate measurement of spectral emissivity with a portable field infrared spectrometer: ancillary equipment and methods. INTERNATIONAL JOURNAL OF REMOTE SENSING[J]. 2019, 40(5-6): 1736-1749, http://ir.igsnrr.ac.cn/handle/311030/48126.
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[102] SiBo Duan, ZhaoLiang Li, BoHui Tang, Hua Wu, Ronglin Tang, Yuyun Bi, Guoqing Zhou. Estimation of Diurnal Cycle of Land Surface Temperature at High Temporal and Spatial Resolution from Clear-Sky MODIS Data. REMOTE SENSING[J]. 2014, 6(4): 3247-3262, http://www.irgrid.ac.cn/handle/1471x/912864.
[103] 刘伟伟, 唐伯惠, 吴骅. 热红外载荷辐射性能评价系统设计与实现. 遥感技术与应用[J]. 2014, 1046-, http://lib.cqvip.com/Qikan/Article/Detail?id=89717483504849524854485049.
[104] Liu, ZengLin, Wu, Hua, Tang, BoHui, Qiu, Shi, Li, ZhaoLiang. An Empirical Relationship of Bare Soil Microwave Emissions Between Vertical and Horizontal Polarization at 10.65 GHz. IEEE GEOSCIENCE AND REMOTE SENSING LETTERS[J]. 2014, 11(9): 1479-1483, http://www.irgrid.ac.cn/handle/1471x/912655.
[105] Dianjun Zhang, Ronglin Tang, Wei Zhao, Bohui Tang, Hua Wu, Kun Shao, ZhaoLiang Li. Surface Soil Water Content Estimation from Thermal Remote Sensing based on the Temporal Variation of Land Surface Temperature. REMOTE SENSING[J]. 2014, 6(4): 3170-3187, http://www.irgrid.ac.cn/handle/1471x/912369.
[106] Liu, ZengLin, Wu, Hua, Tang, BoHui, Qiu, Shi, Li, ZhaoLiang. Atmospheric corrections of passive microwave data for estimating land surface temperature. OPTICS EXPRESS[J]. 2013, 21(13): 15654-15663, http://www.irgrid.ac.cn/handle/1471x/684815.
[107] Lu, Jing, Li, ZhaoLiang, Tang, Ronglin, Tang, BoHui, Wu, Hua, Yang, Fengting, Labed, Jelila, Zhou, Guoqing. Evaluating the SEBS-estimated evaporative fraction from MODIS data for a complex underlying surface. HYDROLOGICAL PROCESSES[J]. 2013, 27(22): 3139-3149, http://dx.doi.org/10.1002/hyp.9440.
[108] Duan, SiBo y, Li, ZhaoLiang, Wu, Hua, Tang, BoHui, Jiang, Xiaoguang, Zhou, Guoqing. Modeling of Day-to-Day Temporal Progression of Clear-Sky Land Surface Temperature. IEEE GEOSCIENCE AND REMOTE SENSING LETTERS[J]. 2013, 10(5): 1050-1054, http://www.irgrid.ac.cn/handle/1471x/913543.
[109] Duan, SiBo, Li, ZhaoLiang, Tang, BoHui, Wu, Hua, Ma, Lingling, Zhao, Enyu, Li, Chuanrong. Land Surface Reflectance Retrieval from Hyperspectral Data Collected by an Unmanned Aerial Vehicle over the Baotou Test Site. PLOS ONE[J]. 2013, 8(6): http://www.irgrid.ac.cn/handle/1471x/913544.
[110] Wu, Hua, Ni, Li, Wang, Ning, Qian, Yonggang, Tang, BoHui, Li, ZhaoLiang. Estimation of Atmospheric Profiles From Hyperspectral Infrared IASI Sensor. IEEE JOURNAL OF SELECTED TOPICS IN APPLIED EARTH OBSERVATIONS AND REMOTE SENSING[J]. 2013, 6(3): 1485-1494, http://dx.doi.org/10.1109/JSTARS.2013.2258138.
[111] Zhou, XiaoMing, Tang, BoHui, Wu, Hua, Li, ZhaoLiang. Estimating net surface longwave radiation from net surface shortwave radiation for cloudy skies. INTERNATIONAL JOURNAL OF REMOTE SENSING[J]. 2013, 34(22): 8104-8117, http://www.irgrid.ac.cn/handle/1471x/912946.
[112] Qian, Yonggang, Qiu, Shi, Wang, Ning, Kong, Xiangsheng, Wu, Hua, Ma, Lingling. Land Surface Temperature and Emissivity Retrieval From Time-Series Mid-Infrared and Thermal Infrared Data of SVISSR/FY-2C. IEEE JOURNAL OF SELECTED TOPICS IN APPLIED EARTH OBSERVATIONS AND REMOTE SENSING[J]. 2013, 6(3): 1552-1563, http://www.irgrid.ac.cn/handle/1471x/913266.
[113] Wu, Hua, Tang, BoHui, Li, ZhaoLiang. Impact of nonlinearity and discontinuity on the spatial scaling effects of the leaf area index retrieved from remotely sensed data. INTERNATIONAL JOURNAL OF REMOTE SENSING[J]. 2013, 34(9-10): 3503-3519, http://dx.doi.org/10.1080/01431161.2012.716537.
[114] Li, ZhaoLiang, Wu, Hua, Wang, Ning, Qiu, Shi, Sobrino, Jose A, Wan, Zhengming, Tang, BoHui, Yan, Guangjian. Land surface emissivity retrieval from satellite data. INTERNATIONAL JOURNAL OF REMOTE SENSING[J]. 2013, 34(9-10): 3084-3127, http://dx.doi.org/10.1080/01431161.2012.716540.
[115] 孙志伟, 唐伯惠, 吴骅, 程耀东. 通用劈窗算法的noaa18navhrr3数据地表温度遥感反演与验证. 地球信息科学学报[J]. 2013, 15(3): 431-, [116] Gao, Caixia, Tang, BoHui, Wu, Hua, Jiang, Xiaoguang, Li, ZhaoLiang. A generalized split-window algorithm for land surface temperature estimation from MSG-2/SEVIRI data. INTERNATIONAL JOURNAL OF REMOTE SENSING[J]. 2013, 34(12): 4182-4199, http://dx.doi.org/10.1080/01431161.2013.773408.
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发表著作
(1) 热红外地表发射率遥感反演研究, Land surface emissivity retrieval from thermal infrared data, 科学出版社, 2014-08, 第 3 作者

科研活动

   
科研项目
( 1 ) 基于红外二氧化碳激光器的地表方向和半球发射率主被动协同反演和验证方法, 主持, 国家级, 2015-01--2018-12
( 2 ) 全天候红外与微波地表温度遥感反演方法, 主持, 国家级, 2013-01--2017-12
( 3 ) 复杂地形区短波辐射时空尺度转换, 主持, 国家级, 2014-01--2018-12
( 4 ) 被动微波地表温度遥感反演理论与方法, 主持, 市地级, 2015-05--2017-05
( 5 ) 植被结构模型测定构建和尺度转换概念模型推演测试, 主持, 院级, 2015-05--2017-08
( 6 ) 新一代静止气象卫星数据大气效应自校正的地表温度和发射率迭代优化分离方法, 主持, 国家级, 2019-01--2022-12
( 7 ) 像元尺度红外发射谱段地面真值获取及验证不确定度研究, 参与, 国家级, 2018-05--2022-04

指导学生

已指导学生

李婉  硕士研究生  070503-地图学与地理信息系统  

现指导学生

应王敏  硕士研究生  070503-地图学与地理信息系统  

李秀娟  硕士研究生  070503-地图学与地理信息系统  

聂平静  硕士研究生  070503-地图学与地理信息系统