闻建光 男 博导 中国科学院空天信息创新研究院
电子邮件: wenjg@aircas.ac.cn
通信地址: 北京市大屯路甲20号北中国科学院空天信息创新研究院
邮政编码: 100101
研究领域
多角度遥感建模、遥感参数反演、试验实验及遥感产品真实性检验。
招生信息
招收直博生、硕士生,2名
招生专业
招生方向
工作经历
2020-03~现在,中国科学院空天信息创新研究院,研究员
2018-07~2020.02, 中国科学院遥感与数字地球研究所,研究员
2011-03~2018-06, 中国科学院遥感与数字地球研究所,副研究员
2008-07~2011-02,中国科学院遥感应用研究所, 助理研究员
出版信息
国家标准:
[1]中国标准, 闻建光; 彭菁菁; 游冬琴; 刘强; 唐勇; 肖青; 柳钦火; 李新; 范闻捷; 葛咏; 吴骅; 王 新鸿; 刘照言 ; 植被指数遥感产品真实性检验, GB/T 40038-2021, 全国遥感技术标准化技术委员会, 2021- 04-30
[2]中国标准, 游冬琴; 闻建光; 刘强; 吴小丹; 林兴稳; 唐勇; 肖青; 柳钦火; 李新; 焦子锑; 范闻捷; 马明国; 刘照言; 王新鸿 ; 反照率遥感产品真实性检验, GB/T 41279-2022, 全国遥感技术标准化技术委员会, 2022-03-09
[3]中国标准, 李丽; 辛晓洲; 张海龙; 闻建光; 吴骅; 王培娟; 高彦华; 姚延娟; 仲波; 余珊珊; 柏军 华; 杜永明; 柳钦火; 刘照言; 于江丰; 龚力峰 ; 光合有效辐射遥感产品真实性检验, GB/T 41281-2022, 全 国遥感技术标准化技术委员会, 2022-03-09
[4]中国标准, 马明国; 于文凭; 李新; 车涛; 肖青; 闻建光; 马灵玲; 刘照言; 郑兴明; 辛晓平; 董立 新; 张勇; 韩启金; 马超飞; 万华伟; 徐曦煜; 姜小光 ; 陆地遥感产品真实性检验地面观测场的选址和布设, GB/T 41540-2022, 全国遥感技术标准化技术委员会, 2022-07-11
[5]中国标准, 仲波; 吴善龙; 陈武汉; 孙林; 张玉环; 孙长奎; 周春艳; 杨爱霞; 吴俊君; 柳钦火; 刘 照言; 闻建光; 李丽; 孙刚; 李凯涛 ; 气溶胶光学厚度遥感产品真实性检验, GB/T 41535-2022, 全国遥感技 术标准化技术委员会, 2022-07-11
[6]中国标准, 郝晓华; 车涛; 王建; 李弘毅; 李新; 刘照言; 黄广辉; 郑照军; 肖鹏峰; 黄晓东; 闻建光 ; 积雪面积遥感产品真实性检验, GB/T 41537-2022, 全国遥感技术标准化技术委员会, 2022-07- 01
专著:
[1]闻建光、刘强、柳钦火、肖青、李小文,陆表二向反射特性遥感建模与反照率反演,对地观测与导航技术丛书,科学出版社,2015
[2]肖青、闻建光、唐伯惠、吴小丹,定量遥感实验,科学出版社,2023
5年以来代表性论文
[1] Wen, J., Wu, X., Xiao, Q. et al. Full-band, multi-angle, multi-scale, and temporal dynamic field spectral measurements in China. Sci Data 10, 353 (2023)
[2] Wen, J., Wu, X., Wang, J., Tang, R., Ma, D., Zeng, Q., et al. (2022). Characterizing the effect of spatial heterogeneity and the deployment of sampled plots on the uncertainty of ground “truth” on a coarse grid scale: Case study for near-infrared (NIR) surface reflectance. Journal of Geophysical Research: Atmospheres, 127, e2022JD036779. https://doi. org/10.1029/2022JD036779
[3] Wen, Jianguang; Lin, Xingwen; Wu, Xiaodan; Bao, Yunfei; You, Dongqin; Gong, Baochang; Tang, Yong; Wu, Shengbiao; Xiao, Qing; Liu, Qinhuo.2022. Validation of the MCD43A3 Collection 6 and GLASS V04 Snow-Free Albedo Products Over Rugged Terrain. IEEE Transactions on Geoscience and Remote Sensing.60. 10.1109/TGRS.2022.3214103
[4] Wen, Jianguang, You, Dongqin, Han, Yuan,Lin, Xingwen,Wu, Shengbiao,Tang, Yong,Xiao, Qing,Liu, Qinhuo. 2022, Estimating Surface BRDF/Albedo Over Rugged Terrain Using an Extended Multisensor Combined BRDF Inversion (EMCBI) Model. IEEE GeoScience and Remote Sensing Letters, DOI10.1109/LGRS.2022.3143197.
[5] M. He, J. Wen., et al., "A New Forest Leaf Area Index Retrieval Algorithm Over Slope Surface," in IEEE Transactions on Geoscience and Remote Sensing, vol. 62, pp. 1-18, 2024, Art no. 4400718, doi: 10.1109/TGRS.2023.3343876.
[6] Xiaodan Wu, Jianguang Wen, Rongqi Tang, Jingping Wang, Qicheng Zeng, Zheng Li, Dongqin You, Xingwen Lin, Baochang Gong, Qing Xiao,Quantification of the uncertainty in multiscale validation of coarse-resolution satellite albedo products: A study based on airborne CASI data, Remote Sensing of Environment,287,2023,113465, https://doi.org/10.1016/j.rse.2023.113465.
[7] Wu, XD; Wen, JG*; Xiao, Q; You, DQ; Wang, JP; Ma, DJ; Lin, XW.(2021). A Multiscale Nested Sampling Method for Representative Albedo Observations at Various Pixel Scales.IEEE JOURNAL OF SELECTED TOPICS IN APPLIED EARTH OBSERVATIONS AND REMOTE SENSING.14, 8193-8207.
[8] You, D., Wen, J*., Liu, Q., Zhang, Y., Tang, Y., Liu, Q., & Xie, H. (2020). The Component-Spectra-Parameterized Angular and Spectral Kernel-Driven Model: A Potential Solution for Global BRDF/Albedo Retrieval From Multisensor Satellite Data. IEEE Transactions on Geoscience and Remote Sensing.
[9] Hao, D., Wen, J*., Xiao, Q., You, D., & Tang, Y. (2020). An Improved Topography-Coupled Kernel-Driven Model for Land Surface Anisotropic Reflectance. IEEE Transactions on Geoscience and Remote Sensing, 58(4), 2833-2847.
[10] Shengbiao Wu , Jianguang Wen*, Jean-Philippe Gastellu-Etchegorry , Qinhuo Liu, Dongqin You , Qing Xiao , DaLei Hao , Xingwen Lin, Tiangang Yin, 2019. The definition of remotely sensed reflectance quantities suitable for rugged terrain,Remote Sensing of Environment, 225,403–415
[11] Wu, S., Wen, J*., Xiao, Q., Liu, Q., Hao, D., Lin, X. and You, D., 2019. Derivation of Kernel Functions for Kernel-Driven Reflectance Model Over Sloping Terrain. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 12(2), pp. 396-409.
[12] Wu, X., Wen, J*., Xiao, Q., & You, D. (2020). Upscaling of Single-Site-Based Measurements for Validation of Long-Term Coarse-Pixel Albedo Products. IEEE Transactions on Geoscience and Remote Sensing, 58(5), 3411-3425.
[13] Wu, X., Wen, J*., Xiao, Q., You, D., Lin, X., Wu, S., & Zhong, S. (2019). Impacts and Contributors of Representativeness Errors of In-Situ Albedo Measurements for the Validation of Remote Sensing Products. IEEE Transactions on Geoscience and Remote Sensing, 57(12), 9740-9755.
[14] Hao, D., Wen, J*., Xiao, Q., Lin, X., You, D., Tang, Y., ... & Zhang, S. (2019). Sensitivity of Coarse Scale Snow‐Free Land Surface Shortwave Albedo to Topography. Journal of Geophysical Research: Atmospheres, 124(16), 9028-9045.
[15] Wu, S., Wen, J*., Lin, X., Hao, D., You, D., Xiao, Q., Liu, Q. and Yin, T., 2019. Modeling Discrete Forest Anisotropic Reflectance Over a Sloped Surface With an Extended GOMS and SAIL Model. IEEE Transactions on Geoscience and Remote Sensing,57(2), pp. 944-957.
[16] Wen, Jianguang; Liu, Qiang; Xiao, Qing; Liu, Qinhuo; You, Dongqin; Hao, Dalei; Wu, Shengbiao; Lin, Xingwen. 2018. "Characterizing Land Surface Anisotropic Reflectance over Rugged Terrain: A Review of Concepts and Recent Developments." Remote Sens.10, no. 3: DOI: 10.3390/rs10030370.
[17] Wu, S., Wen, J*., You, D., Hao, D., Lin, X., Xiao, Q., Liu, Q. and Gastellu‐Etchegorry, J.P., 2018. Characterization of remote sensing albedo over sloped surfaces based on DART simulations and in situ observations. Journal of Geophysical Research: Atmospheres, 123(16), pp.8599-8622.
[18] Hao, D., Wen, J*., Xiao, Q., Wu, S., Lin, X., You, D. and Tang, Y., 2018. Modeling Anisotropic Reflectance Over Composite Sloping Terrain. IEEE Transactions on Geoscience and Remote Sensing, 56(7), pp.3903-3923.
[19] Lin, X., Wen, J*., Liu, Q., Xiao, Q., You, D., Wu, S., Hao, D. and Wu, X., 2018. A multi-scale validation strategy for albedo products over rugged terrain and preliminary application in Heihe River Basin, China. Remote Sensing, 10(2), DOI: 10.3390/rs10020156.
[20] Wen Jianguang, Dou baocheng, You dongqin, Tang yong, Xiao Qing, Liu qinhuo, Forward a Small-Time Scale BRDF/albedo by Multi-sensors Combined BRDF inversion (MCBI) model, IEEE Transaction of GeoScience and Remote Sensing, 2017, 22(5),683-697.
[21] 闻建光,柳钦火,李增元,李新,刘绍民,肖青,高志海,马明国,车涛,刘良云,方红亮,阎广建,葛咏,陈尔学,张勇,马灵玲,吴小丹,陈曦.2023.中国遥感实验与真实性检验的发展思考.遥感学报,27(3): 573-583 DOI: 10.11834/jrs.20232673
[22] 闻建光,肖青,钟守熠,唐勇,陈曦,魏秋方,吴小丹,林兴稳,欧阳晓莹,游冬琴,柳钦火.高分共性产品算法测评与真实性检验技术体系及应用实例.遥感学报,2022, DOI: 10.11834/jrs.20221716.
[23] 林兴稳,闻建光,吴胜标,郝大磊,肖青,柳钦火. 地表反射率地形校正物理模型与效果评价方法研究进展.遥感学报,2020,24(08):958-974.