首页 / 师资队伍 / / 水文水资源研究所
洪阳
特聘教授
Email: hongyang@tsinghua.edu.cn
电话:010-62787394
传真:010-62796971
通信地址:北京市海淀区清华大学水沙科学及水利水电科学国家重点实验室,泥沙馆A207室
邮编:100084
个人主页
教育背景
2001/09-2003/12美国亚利桑那大学 电子工程系 卫星遥感和空间分析博士
1999/09-2003/12美国亚利桑那大学 水文水资源系 水文水资源学博士
1996/09-1999/07 北京大学 环境科学学院 环境规划管理硕士
1992/09-1996 /07 北京大学 地球与空间科学学院 地学学士
工作履历
2013/01 –,清华大学水利水电系,教授,博导,中组部国家特聘专家
2010/11 –,俄克拉荷马大学(美国),大气科学与地理学院,兼职教授
2011/12 –,俄克拉荷马大学(美国),土木环境工程学院,终身教授
2007/08 – 2011/12,俄克拉荷马大学(美国) ,土木环境工程学院,副教授
2005/10 – 2007/08,美国宇航局(NASA),研究科学家
2004/01 – 2005/09,加州大学尔湾分校 (美国),博士后
开设课程
1)现代遥感水文
2)遥感基本原理和方法
3)雷达水文气象学
研究领域
水文水资源, 遥感水文,水文气象,水文气候,自然灾害研究,雷达卫星遥感研究,地理信息空间分析等。依托清华大学水文水资源研究所和水沙科学与水利水电工程国家重点实验室,开展 “遥感-水文-气象-气候-社会”的跨学科研究。具体研究方向包括:
1)基于卫星雷达遥感和云计算大数据信息技术的现代水文水资源新理论、技术与应用;
2)多源遥感降雨,土壤湿度,及蒸散综合反演理论方法,地面验证和应用;
3)围绕遥感、水文、气象、气候、人类多系统相结合的观测、模拟和预报;
4)全球和区域水循环模拟集成与洪水干旱实时监测预报;
5)水文气象灾害以及山洪泥石流等地质灾害集成预报,四维遥感资料同化集成技术;
6)气候变化下框架极端环境压力影响和水文生态响应和调整适应;
7)数字流域,智慧城市,智慧地球以及水资源可持续利用管理等。
科研项目
国家自然科学基金重点支持项目 青藏高原地-空多源降水和总储水量反演同化及其在区域水循环研究中的应用(2015.1-2018.12)
国家自然科学基金重点支持项目 极端气候下中国水资源对粮食安全影响的风险评估和弹性对策研究(2015.1-2019.12)
中国气象科学研究院灾害天气国家重点实验室 中国典型区域多尺度水文暴洪模拟及预警系统的建立(2013.10-2015.3)
学术兼职
美国国家气象中心National Weather Center遥感水文气象实验室主任
AGU American Geophysical Union 遥感降水委员会副主席,主席 2006-2013
AGU American Geophysical Union 水文遥感委员会成员,2013-2015
International Professionals for the Advancement of Chinese Earth Sciences,中国地球科学促进会成员,共同主席,主席, 2010-. (http://www.ipaces.org)
全球卫星降水计划(Global Precipitation Measuring Mission)专家组成员
担任多个国际核心学术期刊的主编、编委,以及专刊特邀编辑
奖励与荣誉
2015 美国宇航局成就奖
2011 Scientific Fellow, Director of NOAA/OAR/National Severe Storm Laboratory
2010 Fellow, NOAA/OAR/ Cooperative Institute for Mesoscale Meteorological Study
2008 NASA总部“推动和加速NASA科学研究产品社会化重要贡献奖”;
2007 “NASA戈达德实验室大气科学研究突出贡献奖”
2005 中国外交部驻美国洛杉矶总领事馆“杰出华人社区贡献奖”
2004 Young Scientist Career Award, University of California Senate, Irvine
2002 美国亚利桑那州图森市荣誉公民奖
2000-2003 美国自然科学基金STC Graduate Fellowship
1999 北京大学研究生学术十杰(理工医科类)
1998 大学生“挑战杯”北京市青年科学家二等奖
1996 北京大学“百川”一等奖学金
学术成果
代表性专著
1) Hong, Y., S. Chen, X. Xue, and G. Hodges (2012), Global Precipitation Estimation and Applications. In Ni-Bin Chang and Yang Hong, Multiscale Hydrologic Remote Sensing: Perspectives and Applications (pp. 371-386). Taylor & Francis. ISBN: 978-1-4398-7745-6.
2) Hong, Y., S. Khan, C. Liu, and Y. Zhang (2012), Global Soil Moisture Estimation Using Microwave Remote Sensing. In Ni-Bin Chang and Yang Hong, Multiscale Hydrologic Remote Sensing: Perspectives and Applications (pp. 399-410). Taylor & Francis. ISBN: 978-1-4398-7745-6.
3) Hong, Y., P. Adhikari and J.J. Gourley (2013), Flood Hazard and Disaster. In Peter Bobrowsky, Encyclopedia of Natural Hazards (pp. 326-336). Springer. ISBN: 978-90-481-8699-0.
4) Yang Hong and Yu Zhang (2014), Spatiotemporal Scales of Remote Sensing Precipitation. In Qihao Weng, Scale Issues in Remote Sensing (pp. 257-268). John Wiley & Sons, Inc.
5) Yang Hong, Robert F. Adler, George J. Huffman and Harold Pierce,《Satellite Rainfall Applications for Surface Hydrology》(Applications of TRMM-Based Multi-Satellite Precipitation Estimation for Global Runoff Prediction: Prototyping a Global Flood Modeling System), Springer, ISBN: 978-90-481-2914-0, 2010.
6) Kirstetter, P.E., Y. Hong, J.J. Gourley, Q. Cao, M. Schwaller, and W. Petersen (2014), A research framework to bridge from the Global Precipitation Measurement mission core satellite to the constellation sensors using ground radar-based National Mosaic QPE. AGU books, Chapman monograph on remote sensing (in press).
7) Yu Zhang, Y. Hong, J.J. Gourley, X. Wang, G.R. Brakenridge, T.D. Groeve and H. Vergara (2014), Impact of assimilating spaceborne microwave signals for improving hydrological predictions ungauged basins. AGU Chapman Remote Sensing monograph (in press).
8) Khan, S. I., Y. Hong and L, Wenjuan (2014), Evapotranspiration and Water Consumption Variability. In Saeid Eslamian, Handbook of Engineering Hydrology. Vol. 2: Modeling Climate Changes and Variability (in press)
9) Ni-Bin Chang, Yang Hong, 《Multi-scale Hydrologic Remote Sensing: Prospects and Applications》, Taylor & Francis, 2012.
学术论文(近五年部分期刊论文)
1) Wen Y, Kirstetter P, Y. Hong*, et al. Evaluation of a method to enhance real-time ground radar-based rainfall estimates using climatological profiles of reflectivity from spaceJ). Journal of Hydrometeorology, 2016, 17, 761–775.
2) Tang, G., Zeng, Z., Long, D., Guo, X., Yong, B., Zhang, W., Hong, Y. Statistical and Hydrological Comparisons between TRMM and GPM Level-3 Products over a Midlatitude Basin: Is Day-1 IMERG a Good Successor for TMPA 3B42V7? Journal of Hydrometeorology, 2016, 17(1), 121-137.
3) Tang, G., Ma, Y., Long, D., Zhong, L., & Y. Hong*. Evaluation of GPM Day-1 IMERG and TMPA Version-7 legacy products over Mainland China at multiple spatiotemporal scales. Journal of Hydrology, 2016, 533, 152-167.
4) Moazami S, Golian S, Hong Y, et al. Comprehensive evaluation of four high-resolution satellite precipitation products under diverse climate conditions in IranJ). Hydrological Sciences Journal, 2016: 1-21.
5) Li H, Hong Y, Xie P, et al. Variational merged of hourly gauge‐satellite precipitation in China: Preliminary resultsJ). Journal of Geophysical Research: Atmospheres, 2015, 120(19): 9897-9915.
6) Chen S, Zhang J, Y. Hong*, Mullens E, et al. Mapping the Precipitation Type Distribution Over the Contiguous United States Using NOAA/NSSL National Multi-Sensor Mosaic QPEJ). Geoscience and Remote Sensing, IEEE Transactions on, 2015, 53(8): 4434-4443.
7) Chen S, Y. Hong*, Cao Q, et al. Intercomparison of precipitation estimates from wsr-88d radar and trmm measurement over continental united statesJ). Geoscience and Remote Sensing, IEEE Transactions on, 2015, 53(8): 4444-4456.
8) Shen X, Y. Hong*, Qin Q, et al. A semiphysical microwave surface emission model for soil moisture retrievalJ). Geoscience and Remote Sensing, IEEE Transactions on, 2015, 53(7): 4079-4090.
9) Wang G, Y. Hong*, Liu L, et al. Inter‐comparison of radar‐based nowcasting schemes in the Jianghuai River Basin, ChinaJ). Meteorological Applications, 2015, 22(3): 289-300.
10) Kirstetter P E, Y. Hong*, Gourley J J, et al. Impact of sub‐pixel rainfall variability on spaceborne precipitation estimation: evaluating the TRMM 2A25 productJ). Quarterly Journal of the Royal Meteorological Society, 2015, 141(688): 953-966.
11) He X, Kim H, Y. Hong*, Kirstetter P E, et al. The Diurnal Cycle of Precipitation in Regional Spectral Model Simulations over West Africa: Sensitivities to Resolution and Cumulus SchemesJ). Weather and Forecasting, 2015, 30(2): 424-445.
12) Ren D*, Y. Hong*, Leslie L M, Shen X, et al. The Gravity Environment of Zhouqu Debris Flow of August 2010 and Its Implication for Future RecurrenceJ). International Journal of Geosciences, 2015, 6(04): 317.
13) Zhang Y, Y. Hong*, Wang X, et al. Hydrometeorological analysis and remote sensing of extremes: Was the July 2012 Beijing flood event detectable and predictable by global satellite observing and global weather modeling systems?J). Journal of Hydrometeorology, 2015, 16(1): 381-395.
14) Yong B*, Y. Hong*, Liu D, Gourley J J, et al. Global view of real-time TRMM multisatellite precipitation analysis: implications for its successor global precipitation measurement missionJ). Bulletin of the American Meteorological Society, 2015, 96(2): 283-296.
15) Zhang, K., J.S. Kimball, R.R. Nemani, S.W. Running, Y. Hong, J.J. Gourley, and Z. Yu, Vegetation Greening and Climate Change Promote Multidecadal Rises of Global Land Evapotranspiration. Nature Scientific Reports, 2015, 5, 15956.
16) Emad Hasan, Sadiq Ibrahim Khan, Yang Hong, Investigation of Potential Sea Level Rise Impact on the Nile Delta, Egypt using Digital Elevation Models. Environmental Monitoring and Assessment, 2015, 187 (10), 1-14.
17) Yang, Wenyu, LI Zhe, NI Guangheng, HONG Yang, Ali Zahraei, Evaluation of a radar-based storm nowcasting method in the Three Gorges. Journal of Tsinghua University Sci & Technol, 2015, 55 (6), 604-611.
18) Chen, S., Hu, J., Zhang, Z., Behrangi, A., Hong, Y., Gebregiorgis, A. S., ... & Zhang, X. Hydrologic Evaluation of the TRMM Multisatellite Precipitation Analysis Over Ganjiang Basin in Humid Southeastern China. Selected Topics in Applied Earth Observations and Remote Sensing, IEEE Journal of, 2015, 8(9), 4568-4580.
19) Yu Liu, Du-Gang Xi, Zhao-Liang Li, Yang Hong, A new methodology for pixel-quantitative precipitation nowcasting using a pyramid Lucas Kanade optical flow approach. Journal of Hydrology, 2015, 529, 354–364.
20) Wan, W., Bai, W., Zhao, L., Long, D., Sun, Y., Meng, X, & Hong, Y., Initial results of China’s GNSS-R airborne campaign: soil moisture retrievals. Science Bulletin, 2015, 60 (10), 964-971.
21) S. I. Khan, Y. Hong, J. J. Gourley, M. U. K. Khattak, and H. J. Vergara, Spatial and Diurnal Variability of Monsoon Systems assessed by TRMM rain rate over Indus Basin. Selected Topics in Applied Earth Observations and Remote Sensing, IEEE Journal of, 2015, 8(9): 4325-4335.
22) Shen Y, Xiong A, Y. Hong*, et al. Uncertainty analysis of five satellite-based precipitation products and evaluation of three optimally merged multi-algorithm products over the Tibetan PlateauJ). International Journal of Remote Sensing, 2014, 35(19): 6843-6858.
23) Wan Z, Y. Hong*, Khan S, et al. A cloud-based global flood disaster community cyber-infrastructure: Development and demonstrationJ). Environmental Modelling & Software, 2014, 58: 86-94.
24) Qiao L, Y. Hong*, McPherson R, et al. Climate change and hydrological response in the trans-state Oologah Lake watershed–evaluating dynamically downscaled NARCCAP and statistically downscaled CMIP3 simulations with VIC modelJ). Water resources management, 2014, 28(10): 3291-3305.
25) Cao Q, Wen Y, Y. Hong*, et al. Enhancing quantitative precipitation estimation over the continental United States using a ground-space multi-sensor integration approachJ). Geoscience and Remote Sensing Letters, IEEE, 2014, 11(7): 1305-1309.
26) Qiao L, Y. Hong*, Chen S, et al. Performance assessment of the successive Version 6 and Version 7 TMPA products over the climate-transitional zone in the southern Great Plains, USAJ). Journal of Hydrology, 2014, 513: 446-456.
27) Vergara H, Y. Hong*, Gourley J J, et al. Effects of resolution of satellite-based rainfall estimates on hydrologic modeling skill at different scalesJ). Journal of Hydrometeorology, 2014, 15(2): 593-613.
28) Khan S I, Y. Hong*, Gourley J J, et al. Multi-sensor imaging and space-ground cross-validation for 2010 flood along Indus River, PakistanJ). Remote Sensing, 2014, 6(3): 2393-2407.
29) Cao Q, Y. Hong*, Chen S, et al. Snowfall Detectability of NASA's CloudSat: the First Cross-Investigation of its 2c-Snow-Profile Product and National Multi-Sensor Mosaic QPE (NMQ) Snowfall DataJ). Progress In Electromagnetics Research, 2014, 148: 55-61.
30) Cao, Q., Y. Hong*, Y. Qi, Y. Wen, J. Zhang, J. J. Gourley and L. Liao, Empirical Conversion of Vertical Profile of Reflectivity (VPR) from Ku-band to S-band Frequency, Journal of Geophysical Research: Atmospheres, 2013,118(4), pp1814-1825.
31) Chen, S., Y. Hong*, Q. Cao, J. J. Gourley, Y. Tian, J. Hardy, P.E. Kirstetter, B. Yong, and Y. Shen, Similarity and difference of the two successive V6 and V7 TRMM multisatellite precipitation analysis performance over China. Journal of Geophysical Research, 2013, 118, 13060–13074.
32) Cao, Q., Y. Hong*, J. J. Gourley, Y. Qi, J. Zhang, Y. Wen, and P. E. Kirstetter, Statistical and physical analysis of the vertical structure of precipitation in mountainous west region of the United States using 11+ years of spaceborne observations from TRMM precipitation radar, Journal of Applied Meteorology and Climatology, 2013,52(2), pp408-424.
33) Kirstetter, P.E., Y. Hong*, J.J. Gourley, M. Schwaller, W. Petersen and J. Zhang, Comparison of TRMM 2A25 Products Version 6 and Version 7 with NOAA/NSSL Ground Radar-based National Mosaic QPE, Journal of Hydrometeorology, 2013,14 (2), pp661-669.
34) Xue, X., Y. Hong*, A. S. Limaye, J. Gourley, G. J. Huffman, S. Khan, C. Dorji and S. Chen, Statistical and Hydrological Evaluation of TRMM-based Multi-satellite Precipitation Analysis over the Wangchu Basin of Bhutan: Are the Latest Satellite Precipitation Products 3B42V7 Ready for Use in Ungauged Basins? Journal Of Hydrology, 2013, 499, 91-99.
35) Chen, S., Y. Hong*, Q. Cao, P.-E. Kirstetter, J. J. Gourley, Y. Qi, J. Zhang, K. Howard, J. Hu and J. Wang, Performance Evaluation of Radar and Satellite Rainfalls for Typhoon Morakot over Taiwan: Are Remote-sensing Products Ready for Gauge Denial Scenario of Extreme Events?. Journal of Hydrology.2013, doi: 10.1016/j.jhydrol.2012.12.026j.
36) Yong, B., Y. Hong*, L.-L. Ren, J. J. Gourley, G. J. Huffman, X. Chen, W. Wang, and S. I. Khan, Assessment of evolving TRMM-based multisatellite real-time precipitation estimation methods and their impacts on hydrologic prediction in a high latitude basin, Journal of Geophysical Research, 2012,117 (D9), pp D09108.
37) Kirstetter, P.-E., Y. Hong*, J. J. Gourley, S. Chen, Z. L. Flamig, J. Zhang, M. Schwaller, W. Petersen, and E. Amitai, Toward a Framework for Systematic Error Modeling of Spaceborne Precipitation Radar with NOAA/NSSL Ground Radar-based National Mosaic QPE, Journal of Hydrometeorology, 2012, 13 (4), pp1285-1300.
38) Wen, Y., Y. Hong*, G. Zhang, T. J. Schuur, J. J. Gourley, Z. Flamig, K. R. Morris and Q. Cao, 2011: Cross Validation of Spaceborne Radar and Ground Polarimetric Radar Aided by Polarimetric Echo Classification of Hydrometeor Types. Journal of Applied Meteorology and Climatology, 2011, 50 (7), pp1389-1402,.
39) Wang, J., Y. Hong*, L. Li, J. J. Gourley, S. I. Khan, K. K. Yilmaz, R. F. Adler, F. S. Policelli, S. Habib, D. Irwn, A. S. Limaye, T. Korme and L. Okello, The coupled routing and excess storage (CREST) distributed hydrological model, Hydrological Sciences Journal, 2011.56 (1), pp84-98.

发明专利
1) EF5: Continental US Ensemble Framework for Flash Flood Forecasting System. 美国,No. 11NOR056;
2) PERSIANN-CCS: A Real-time Multi-Satellite High-resolution (4-km and 30-60 minutes) Global Precipitation Products. 美国,No. 11NOR055;
3) SLIDE(Slope-Infiltration-Distributed Equilibrium):
A physical Model for Regional Geohazards (Mudslide/Landslide/Debris Flow) Prediction. 美国,No. 11NOR054;
4) CREST: The Coupled Routing and Excess Storage Distributed Hydrological Model Version 1.6. 美国,No. 11NOR041