基本信息

曾江源  男  硕导  中国科学院空天信息创新研究院
电子邮件: zengjy@radi.ac.cn
通信地址: 北京市朝阳区大屯路甲20号北中国科学院遥感与数字地球研究所
邮政编码: 100101

担任Remote Sensing of Environment (RSE)编委、RSE“遥感水文”专刊执行客座编辑、IEEE JSTARS副主编。获得每四年颁奖一次的摄影测量与遥感领域国际重要学术奖项ISPRS最佳青年作者奖、每三年颁发一次的国际无线电联盟URSI青年科学家奖、电磁学领域国际重要学术奖项PIERS首届青年科学家奖及“遥感、成像与雷达探测”领域唯一现金奖,2022年获得中科院青促会“优秀会员”人才项目资助。

培养的首个研究生在硕士二年级获得中科院学生最高奖学金之一中科院院长优秀奖。


研究领域

微波遥感土壤水分定量反演与建模,遥感水文应用,地表参数微波新型探测模式与反演应用

招生信息

欢迎(但不局限于)有遥感、地理、地信、测绘、水文气象、环境、数学、计算机等专业背景,热爱科研、积极乐观、对定量遥感相关方向感兴趣的学生报考

招生专业
070503-地图学与地理信息系统
081602-摄影测量与遥感
招生方向
微波遥感
定量遥感
水文遥感

教育背景

2010-09--2015-06   中国科学院遥感与数字地球研究所   博士
2006-09--2010-06   武汉大学   学士
学历
博士研究生

学位
博士

工作经历

   
工作简历
2020-03~现在, 中国科学院空天信息创新研究院, 副研究员
2018-07~2020-02,中国科学院遥感与数字地球研究所, 副研究员
2015-07~2018-06,中国科学院遥感与数字地球研究所, 助理研究员
社会兼职
2023-03-23-今,中科院空天院青促会理事会, 理事长
2023-03-01-今,The Innovation Geoscience, 创刊筹委会成员、学术编辑(Academic Editor)
2022-12-12-今,中科院青促会地学分会第四届委员会, 委员
2022-10-21-今,Remote Sensing of Environment (RSE) special issue "Emerging remote sensing techniques for hydrological applications", 执行客座编辑(Executive Guest Editor)
2022-02-01-今,The Innovation, 青年编委 (Youth Editor)
2022-01-01-今,Journal of Remote Sensing, 青年编委 (Young Editorial Board member)
2021-12-25-今,IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing (IEEE JSTARS), 副主编 (Associate Editor)
2021-11-20-今,IEEE, Senior Member
2020-10-15-2023-03-22,中科院空天院青促会理事会, 理事
2020-07-08-今,Remote Sensing of Environment (RSE), 编委(Editorial Board Member)
2019-10-19-今,《遥感技术与应用》, 青年编委
2013-12-26-今,IEEE TGRS/JSTARS/GRSL, RSE, JGR, JC, WRR, JOH, ESSD, AFM, STOTEN, Geoderma, Catena, SSSAJ, ERL等40余份国际SCI期刊, 审稿人

专利与奖励

奖励/荣誉信息
(1) 中科院空天院招生指导奖, , 研究所(学校), 2023
(2) 中科院空天院育人突出奖, , 研究所(学校), 2022
(3) 中科院青促会“优秀会员”, , 部委级, 2022
(4) 国际摄影测量与遥感协会最佳青年作者奖(ISPRS Best Young Author Award), , 其他, 2020
(5) 李小文遥感科学青年奖(青年教师组), , 其他, 2019
(6) 国际电磁学研究进展大会PIERS首届青年科学家奖及现金奖(PIERS Young Scientist Award and Cash Award), , 其他, 2018
(7) 首届中国空间地球科学学术研讨会唯一最佳青年论文奖, , 其他, 2018
(8) 国际无线电联盟URSI青年科学家奖(URSI Young Scientists Award), , 其他, 2017
(9) Remote Sensing of Environment杰出审稿人, , 其他, 2016
(10) 中科院遥感地球所年度突出个人贡献奖, , 研究所(学校), 2016
(11) 中国科学院优秀博士学位论文, , 院级, 2016
(12) 北京市优秀毕业生, , 市地级, 2015
(13) 中国科学院大学优秀毕业生, , 院级, 2015
(14) 朱李月华优秀博士生奖学金, , 院级, 2015
(15) 中国科学院大学“三好学生标兵”, , 院级, 2014
(16) 中国科学院与澳大利亚BHPB奖学金, , 院级, 2014
(17) 中国科学院院长优秀奖, , 院级, 2014
(18) 博士生国家奖学金, , 国家级, 2013
(19) 硕士生国家奖学金, , 国家级, 2012
(20) 武汉大学甲等奖学金, "汇丰"专项奖学金, , 研究所(学校), 2009
(21) 武汉大学甲等奖学金, "AMD"专项奖学金, , 研究所(学校), 2008
(22) 武汉大学甲等奖学金, "天宝"专项奖学金, , 研究所(学校), 2007
专利成果
[1] 曾江源, 汪田田. 一种基于被动微波多波段温度模型的地表温度反演方法. ZL202310646722.3, 2023-06-30.

[2] 曾江源, 石鹏飞. 基于广义线性回归模型的主被动微波土壤水分融合算法. CN: CN116049768B, 2023-07-11.

[3] 曾江源, 石鹏飞. 一种提高遥感土壤水分产品时空覆盖度的填充方法. ZL202310325246.5, 2023-06-02.

[4] 陈权, 曾江源, 周武, 李震. 一种盐度卫星双波段亮温数据联合反演土壤水分的方法. CN: ZL201610064046.9, 2016-05-25.

[5] 陈权, 曾江源, 李震. 一种单频率微波辐射计土壤水分的反演方法. CN: ZL201310034179.8, 2013-06-12.

[6] 陈权, 曾江源, 李震. 土壤水分检测方法及设备. CN: ZL201110392448.9, 2013-04-17.

[7] 陈权, 李震, 曾江源. 地表粗糙度参数测量装置及方法. CN: ZL201110383770.5, 2013-04-24.

出版信息

第一/通讯代表性论文如下:

发表论文
[1] Hongliang Ma, Jiangyuan Zeng, Xiang Zhang, Jian Peng, Xiaojun Li, Peng Fu, Michael H. Cosh, Husi Letu, Shaohua Wang, Nengcheng Chen, Jean-Pierre Wigneron. Surface soil moisture from combined active and passive microwave observations: Integrating ASCAT and SMAP observations based on machine learning approaches. Remote Sensing of Environment[J]. 2024, 308: https://doi.org/10.1016/j.rse.2024.114197.
[2] Panshan Wang, Jiangyuan Zeng, Kun-Shan Chen, Hongliang Ma, Xiang Zhang, Pengfei Shi, Haiyun Bi. Global-Scale Assessment of Multiple Recently Developed/Reprocessed Remotely Sensed Soil Moisture Datasets. IEEE Transactions on Geoscience and Remote Sensing[J]. 2024, 62: https://ieeexplore.ieee.org/document/10419373.
[3] Chenchen Peng, Jiangyuan Zeng, KunShan Chen, Zhen Li, Hongliang Ma, Xiang Zhang, Pengfei Shi, Tiantian Wang, Lu Yi, Haiyun Bi. Global spatiotemporal trend of satellite-based soil moisture and its influencing factors in the early 21st century. Remote Sensing of Environment[J]. 2023, 291: http://dx.doi.org/10.1016/j.rse.2023.113569.
[4] Jiangyuan Zeng, Pengfei Shi, Kun-Shan Chen, Hongliang Ma, Haiyun Bi, Chenyang Cui. On the Relationship Between Radar Backscatter and Radiometer Brightness Temperature From SMAP. IEEE Transactions on Geoscience and Remote Sensing[J]. 2022, 60: https://ieeexplore.ieee.org/document/9560162/.
[5] Dejing Qiao, Zhen Li, Jiangyuan Zeng, Shuang Liang, Kaighin A. McColl, Haiyun Bi, Jianmin Zhou, Ping Zhang. Uncertainty Characterization of Ground-Based, Satellite, and Reanalysis Snow Depth Products Using Extended Triple Collocation. Water Resources Research[J]. 2022, 58: https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2021WR030895.
[6] Jiangyuan Zeng, Pengfei Shi, Kun-Shan Chen, Hongliang Ma, Haiyun Bi, Chenyang Cui. Assessment and Error Analysis of Satellite Soil Moisture Products Over the Third Pole. IEEE Transactions on Geoscience and Remote Sensing[J]. 2022, 60: https://ieeexplore.ieee.org/document/9563061/.
[7] Tiantian Wang, Jiangyuan Zeng, Kun-Shan Chen, Zhen Li, Hongliang Ma, Quan Chen, Haiyun Bi, Pengfei Shi, Liang Zhu, Chenyang Cui. Comparison of Different Intercalibration Methods of Brightness Temperatures From FY-3D and AMSR2. IEEE Transactions on Geoscience and Remote Sensing[J]. 2022, 60: https://ieeexplore.ieee.org/document/9779239/.
[8] Pengfei Shi, Jiangyuan Zeng, Kun-Shan Chen, Hongliang Ma, Haiyun Bi, Chenyang Cui. The 20-Year Spatiotemporal Trends of Remotely Sensed Soil Moisture and Vegetation and Their Response to Climate Change over the Third Pole. Journal of Hydrometeorology[J]. 2021, https://journals.ametsoc.org/view/journals/hydr/22/11/JHM-D-21-0077.1.xml.
[9] Jiangyuan Zeng, Kun-Shan Chen, Chenyang Cui, Xiaojing Bai. A Physically Based Soil Moisture Index From Passive Microwave Brightness Temperatures for Soil Moisture Variation Monitoring. IEEE Transactions on Geoscience and Remote Sensing[J]. 2020, 58(4): 2782-2795, https://ieeexplore.ieee.org/document/8935349.
[10] Xiaojing Bai, Jiangyuan Zeng, Kun-Shan Chen, Zhen Li, Yijian Zeng, Jun Wen, Xin Wang, Xiaohua Dong, Zhongbo Su. Parameter Optimization of a Discrete Scattering Model by Integration of Global Sensitivity Analysis Using SMAP Active and Passive Observations. IEEE Transactions on Geoscience and Remote Sensing[J]. 2019, 57(2): 1084-1099, https://ieeexplore.ieee.org/document/8457483/.
[11] Quan Chen, Jiangyuan Zeng, Chenyang Cui, Zhen Li, Kun-Shan Chen, Xiaojing Bai, Jia Xu. Soil Moisture Retrieval From SMAP: A Validation and Error Analysis Study Using Ground-Based Observations Over the Little Washita Watershed. IEEE Transactions on Geoscience and Remote Sensing[J]. 2018, 56(3): 1394-1408, https://ieeexplore.ieee.org/document/8101554.
[12] Jiangyuan Zeng, Kun-Shan Chen. Theoretical Study of Global Sensitivity Analysis of L-Band Radar Bistatic Scattering for Soil Moisture Retrieval. IEEE Geoscience and Remote Sensing Letters[J]. 2018, 15(11): 1710-1714, https://ieeexplore.ieee.org/document/8432480.
[13] Jiangyuan Zeng, Kun-Shan Chen, Haiyun Bi, Tianjie Zhao, Xiaofeng Yang. A Comprehensive Analysis of Rough Soil Surface Scattering and Emission Predicted by AIEM With Comparison to Numerical Simulations and Experimental Measurements. IEEE Transactions on Geoscience and Remote Sensing[J]. 2017, 55(3): 1696-1708, https://ieeexplore.ieee.org/document/7792655.
[14] Jiangyuan Zeng, Kun-Shan Chen, Haiyun Bi, Quan Chen. A Preliminary Evaluation of the SMAP Radiometer Soil Moisture Product Over United States and Europe Using Ground-Based Measurements. IEEE Transactions on Geoscience and Remote Sensing[J]. 2016, 54(8): 4929-4940, https://ieeexplore.ieee.org/document/7457263.
[15] Jiangyuan Zeng, Kun-Shan Chen, Haiyun Bi, Quan Chen, Xiaofeng Yang. Radar Response of Off-Specular Bistatic Scattering to Soil Moisture and Surface Roughness at L-Band. IEEE Geoscience and Remote Sensing Letters[J]. 2016, 13(12): 1945-1949, https://ieeexplore.ieee.org/abstract/document/7740841/.
[16] Haiyun Bi, Jianwen Ma, Wenjun Zheng, Jiangyuan Zeng. Comparison of soil moisture in GLDAS model simulations and in situ observations over the Tibetan Plateau. Journal of Geophysical Research: Atmospheres[J]. 2016, 121(6): 2658-2678, https://agupubs.onlinelibrary.wiley.com/doi/10.1002/2015JD024131.
[17] Jiangyuan Zeng, Zhen Li, Quan Chen, Haiyun Bi, Jianxiu Qiu, Pengfei Zou. Evaluation of remotely sensed and reanalysis soil moisture products over the Tibetan Plateau using in-situ observations. Remote Sensing of Environment[J]. 2015, 163: 91-110, https://www.sciencedirect.com/science/article/abs/pii/S0034425715001042.
[18] Jiangyuan Zeng, Zhen Li, Quan Chen, Haiyun Bi. Method for Soil Moisture and Surface Temperature Estimation in the Tibetan Plateau Using Spaceborne Radiometer Observations. IEEE Geoscience and Remote Sensing Letters[J]. 2015, 12(1): 97-101, https://ieeexplore.ieee.org/document/6840330.

科研活动

   
科研项目
( 1 ) 基于L波段SMAP与多波段AMSR2的青藏高原土壤水分反演算法研究, 负责人, 国家任务, 2017-01--2019-12
( 2 ) 极地海冰参数反演算法与产品研制, 负责人, 国家任务, 2018-07--2023-06
( 3 ) 中国科学院青年创新促进会会员项目, 负责人, 中国科学院计划, 2018-01--2021-12
( 4 ) 基于多通道辐射计的青藏高原地区土壤水分反演算法研究, 负责人, 研究所自选, 2016-01--2017-12
( 5 ) 基于植被与地表粗糙度有效校正方案的SMAP卫星土壤水分反演及验证, 负责人, 研究所自选, 2016-06--2017-12
( 6 ) 基于统一物理模型的主被动微波联合土壤水分反演研究, 负责人, 国家任务, 2020-01--2023-12
( 7 ) 21世纪初全球土壤水分时空变化特征及影响机制, 负责人, 研究所自选, 2022-01--2023-12
( 8 ) 中国科学院青年创新促进会“优秀会员”人才项目, 负责人, 中国科学院计划, 2023-01--2025-12
参与会议
(1)Soil moisture variability monitoring by a new physically-based soil moisture index from passive microwave observations (Oral)   Zeng, J. Y., Chen, K. S., Cui, C. Y.,   2019-12-17
(2)L-Band bistatic radar returns from bare soils: a simulation study for soil moisture retrieval using global sensitivity analysis method (Oral)   Zeng, J. Y., Chen, K. S.   2018-11-08
(3)A comparative study of analytic modelling, numerical simulations, and experimental measurements for rough soil surface scattering and emission (Oral)   Zeng, J. Y., Chen, K. S.   2018-08-25
(4)Radar bistatic configuration for soil moisture estimation at L-band using global sensitivity analysis method (Oral)   Zeng, J. Y., Chen, K. S.   2018-08-01
(5)An intercomparison of SMAP, SMOS, AMSR2, FY3B and ESA CCI soil moisture products at different spatial scales over two dense network regions (Oral)   Zeng, J. Y., Chen, K. S., Cui, C. Y., Bi, H. Y.   2018-04-10
(6)Covariation of SMAP active and passive measurements with respect to vegetation and surface roughness (Oral)   Zeng, J. Y., Akbar, R., Chen, K. S., Zhao, T. J., Yao, P. P., Cui, H. Z., Lu, H., Entekhabi, D.   2017-07-27
(7)Rough soil surface scattering and emission modeling: a comprehensive reappraisal of the AIEM model by using numerical and experimental data (Oral)   Zeng, J. Y., Chen, K. S., Xu, P., Jin, M., Yu, L., Yang, Y.    2017-07-25
(8)A simulation study of the sensitivity of bistatic scattering to soil moisture and surface roughness at L-band (Oral)   Zeng, J. Y., Chen, K. S., Bi, H. Y., and Chen, Q.   2016-08-09
(9)A preliminary assessment of the SMAP radiometer soil moisture product using three in-situ networks (Oral)   Zeng, J. Y., Chen, K. S., Bi, H. Y., Chen, Q., and Liu, Y.   2016-07-12
(10)Response of bistatic scattering to soil moisture and surface roughness at L-band (Oral)   Zeng, J. Y., Chen, K. S., Liu, Y., Bi, H. Y., and Chen, Q.   2016-07-12
(11)Validation of SMAP radiometer derived soil moisture product over United States and Europe using in-situ measurements (Oral)   Zeng, J. Y., Chen, K. S., Bi, H. Y., and Chen, Q.   2016-07-05
(12)Land surface temperature estimates in the Tibetan Plateau from passive microwave observations (Oral)   Zeng, J. Y., Zhen, L., Chen, Q., and Bi, H. Y.   2014-07-16
(13)Soil moisture inversion from aircraft passive microwave observations during SMEX04 using a single-frequency algorithm (Oral)   Zeng, J. Y., Zhen, L., Chen, Q., and Bi, H. Y.   2013-08-28
(14)The measurements and model construction of complex permittivity of corn leaves at the main frequency points of L/S/C/X-band (Oral)   Zeng, J. Y., Zhen, L., Chen, Q., and Bi, H. Y.   2013-04-23

指导学生

已指导学生

石鹏飞  硕士研究生  070503-地图学与地理信息系统  

汪田田  硕士研究生  085700-资源与环境  

现指导学生

彭晨晨  硕士研究生  085700-资源与环境  

王攀山  硕士研究生  070503-地图学与地理信息系统  

张春林  硕士研究生  085700-资源与环境