王华

审核发布:资源环境学院来源单位及审核人:发布时间:2024-02-27浏览次数:4416

性别:男 职称:教授/博士生导师 Email:ehwang@163.com 办公电话: 办公地址:数信楼240室


教育背景





2001/09-2007/06:武汉大学大地测量学与测量工程专业博士



1997/09-2001/06:武汉大学测绘工程专业学士



工作履历



· 2024/01 – 至今:华南农业大学教授

· 2007/12 – 2023/12:广东工业大学讲师、副教授、教授

· 2023/07 - 2023/08ICTP Simons Associate

· 2020/01 - 2020/09: 美国加州理工学院访问学者

· 2016/02 - 2016/04ICTP Regular Associate

· 2015/02 - 2015/04ICTP Regular Associate

· 2011/07 - 2011/10:英国利兹大学访问学者

· 2009/07 - 2009/12:英国利兹大学访问学者

· 2007/12 - 2008/11:英国Royal Society International Incoming Fellowship

· 2006/12 - 2007/03:澳大利亚新南威尔士大学访问学者

· 2005/03 - 2006/03:香港理工大学访问学者

· 2003/06 - 2003/12:澳大利亚新南威尔士大学访问学者



学术兼职

· 国际理论物理中心、中国地震局地震预测研究所、武汉大学客座研究员

· 中国地震学会地壳形变测量专业委员会委员地震预报专业委员会委员地震地质专业委员会委员

· 中国地球物理学会大地测量与遥感专业委员会委员

· 中国测绘学会大地测量与导航专业委员会委员

· 中国卫星导航定位协会教育与发展专业委员会委员

· 《地震地质》、《大地测量与地球动力学》、《导航定位学报》、《Geodesy and Geodynamics》等杂志编委


研究领域

· 空间大地测量(InSAR/GNSS

· 资源环境遥感与土地利用

· 灾害监测与建模(地震、火山、地面沉降、滑坡、洪水等)

· 更多研究兴趣详见:www.phimaging.com


奖励与荣誉

· 2022ICTP Simons Associate, ICTP-Simons Foundation

· 2016教育部高等学校科学研究优秀成果奖(自然科学类)一等奖

· 2016国家测绘科技进步一等奖

· 2013国家测绘科技进步三等奖

· 2007Royal Society International Incoming Fellowship


主持项目


1. 基于密集大地测量观测的川滇地区地壳形变与地震危险性分析,国家自然科学基金面上项目(42274001),56万,2023.1-2026.12.

2. 广花盆地隐伏岩溶区地面塌陷专项监测,企业委托,19万,2022.10-2022.12.

3. 鲜水河-安宁河-则木河断裂带三维地壳运动速度场和应变率场模型,中国地震科学实验场专项(2019CSES0110),47.1万,2019.5-2020.12.

4. 大地测量模型科学设计,中国地震科学实验场重点项目“中国地震科学实验场科学设计预研(2018CSES0102)”子课题,10万,2018.12-2019.6.

5. 大地测量模型构建,国家重点研发计划“重大自然灾害监测预警与防范”专项“基于密集综合观测技术的强震短临危险性预测关键技术研究(2017YFC1500500)”专题,184.79万,2018-2022.

6. 基于InSAR/GPS的青藏高原地壳运动速度场及其变形模型研究,国家自然科学基金面上项目(41672205),68万,2017-2020.

7. 中国大陆西部InSAR在断层运动分析中应用研究,川滇国家地震监测预报实验场项目“地震动力学概率预测模型(2017CESE0103)”子课题,20万,2017-2018.

8. 利用雷达干涉测量技术研究广东沿海地面沉降时空分布特征,广东省自然科学基金(自由申请项目,2015A030313489),10万,2015-2018.

9. 基于多源InSAR时间序列监测珠江三角洲地面沉降,广州市科学研究专项(一般项目,201510010062),20万,2015-2017.

10. 鲜水河断裂震间形变时空分布特征及地震危险性分析, 国家自然科学基金面上项目(41372221),75万,2014-2017.

11. 利用InSAR研究西藏中南部断层震间形变,中国地震局地质研究所地震动力学国家重点实验室开放基金(LED2013B04),25万,2013-2016.

12. 利用InSAR与GPS建立青藏高原中西部地壳运动速度场,国家自然科学基金青年基金项目(41104016),25万,2012-2014.


学术成果



一、发表论文:

1. Liang, H., Y. Wu, Z. Shao, J. Li, Y. Li, S. Yi, F. Yang, W. Zhuang, H. Wang, W. Zhan, C. Chen (2023), Coseismic slip and deformation mode of the 2022 Mw 6.5 Luding earthquake determined by GPS observation, Tectonophysics, 865, 230042.

2. Ng, A. H.-M., Z. Liu, Z. Du, H. Huang, H. Wang, L. Ge (2023), A novel framework for combining polarimetric Sentinel-1 InSAR time series in subsidence monitoring - A case study of Sydney, Remote Sensing of Environment, 295, 113694.

3. He Y., A. H.-M. Ng, H. Wang, J. Kuang (2023), Understanding the Spatiotemporal Characteristics of Land Subsidence and Rebound in the Lianjiang Plain Using Time-Series InSAR with Dual-Track Sentinel-1 Data, Remote Sens.15(13), 3236, https://doi.org/10.3390/rs15133236.

4. La Rosa, A., M. Raggiunti, C. Pagli, D. Keir, H. Wang, & A. Ayele, (2023). Extensional earthquakes in the absence of magma in northern Afar: Insights from InSAR, Geophys. Res. Lett.50, e2023GL102826. 

5. Pagli, C., H. Wang, A. Socquet, V. Drouin (2023). Editorial: InSAR for volcanoes and tectonics, Front. Earth Sci., 11:1156668doi: 10.3389/feart.2023.1156668. 

6. Liu Z., A. H.-M. Ng, H. Wang, Z. Du, L. Ge (2023). Land subsidence modeling and assessment in the West Pearl River Delta from combined InSAR time series, land use and geological data, Int. J. Appl. Earth Obs. Geoinformation, 118, 103228.

7. Zhang, Z., Y. Lou, W. Zhang, H. Wang, Y. Zhou, J. Bai (2022). Assessment of ERA-Interim and ERA5 reanalysis data on atmospheric corrections for InSAR, Int. J. Appl. Earth Obs. Geoinformation, 111, 102822. 

8. Wang, H., J.-P. Avouac, Z. Shao, X. Liu, W. Wei, S. Zhan, X. Dai, Y. Lou (2022). CSES Community Deformation Models in Southwest China, Chapter 6 in “China Seismic Experimental Site - Theoretical Framework and Ongoing Practice”, pages 111-133.

9. Peng, L., H. Wang*, A.H.-M. Ng, X. Yang (2022). SAR Offset Tracking Based on Feature Points, Front. Earth Sci., 9:724965. doi: 10.3389/feart.2021.724965.

10. Zhang, Z., Y. Lou, W. Zhang, H. Wang, Y. Zhou, J. Bai (2021). On the Assessment GPS-Based WRFDA for InSAR Atmospheric Correction: A Case Study in Pearl River Delta Region of China, Remote Sens., 13,3280. https://doi.org/10.3390/ rs13163280

11. La Rosa, A., C. Pagli, H. Wang, C., Doubre, S. Leroy, F. Sani, G. Corti, A. Ayele, D. Keir (2021). Plate-boundary kinematics of the Afrera linkage zone (Afar) from InSAR and seismicity, J. Geophys. Res, 126, e2020JB021387.

12. Weiss, J. R., R. J. Walters, Y Morishita, T. J. Wright, M. Lazecky, H. Wang, E. Hussain, A. J. Hooper, J. R. Elliott, P. González, K. Spaans, C. Yu, B. Parsons, Z. Li, C. Rollins (2020), High‐resolution surface velocities and strain for Anatolia from Sentinel‐1 InSAR and GNSS data, Geophys. Res. Lett., 47, e2020GL087376.

13. Dai, Y., A. H.-M. Ng, H. Wang, L. Li, L. Ge, T. Tao (2020), Modelling-assisted InSAR Phase Unwrapping Method for Mapping Mine Subsidence, IEEE Geosci. Remote Sens. Lett., doi:10.1109/LGRS.2020.2991687.

14. La Rosa, A., C. Pagli, D. Keir, F. Sani, G. Corti, H. Wang, D. Possee (2019), Observing oblique slip during rift linkage in northern Afar, Geophys. Res. Lett., 46(19): 10782-10790.

15. Wang, H., T. J. Wright, J. Liu-Zeng, L. Peng (2019), Strain rate distribution in south-central Tibet from two decades of InSAR and GPS, Geophys. Res. Lett., 46(10): 5170-5179.

16. Wu, Z., G. Ha, H. Wang, H. Gai, M. Hu, G. Zhao (2019), Abnormal disappearance of Duoqing Co lake between November 2015 and April 2016, due to far-field aseismic creeping of the southern Yadong-Gulu rift of Tibet, triggered by the 2015 Ms 8.1 Nepal earthquake, International Geology Review, 61(18): 2313-2327.

17. Pagli, C., S.-H. Yun, C. Ebinger, D. Keir, H. Wang (2019), Strikeslip tectonics during rift linkage, Geology, 47(1): 31-34.

18. Kuang, J., L. Ge, G. I. Metternicht, A.H.-M.Ng, H. Wang, M. Zare, F. Kamranzad (2019), Coseismic deformation and source model of the 12 November 2017 MW 7.3 Kermanshah Earthquake (Iran-Iraq border) investigated through DInSAR measurements, Int. J. Remote Sensing, 40(2): 532-554.

19. Zheng, G., Y. Lou, H. Wang, J. Geng, C. Shi (2018), Shallow seismicity forecast for the India-Eurasia collision zone based on geodetic strain rates, Geophys. Res. Lett., 45(17): 8905-8912. 

20. Ng, A. H.-M., H. Wang*, Y. Dai, C. Pagli, W. Chen, L. Ge, Z. Du and K. Zhang (2018), InSAR Reveals Land Deformation at Guangzhou and Foshan, China between 2011 and 2017 with COSMO-SkyMed Data, Remote Sens. 10(6): 813, doi: 10.3390/rs10060813.

21. Wang, H., J. Liu-Zeng, A. H.-M. Ng, L. Ge, F. Javed, F. Long, A. Aoudia, J. Feng, Z. Shao (2017), Sentinel-1 observations of the 2016 Menyuan earthquake: a buried reverse event linked to the left-lateral Haiyuan fault, Int. J. Appl. Earth Obs. Geoinformation, 61:14-21.

22. Zheng, G., H. Wang*, T. J. Wright, Y. Lou*, R. Zhang*, W. Zhang, C. Shi, J. Huang, N. Wei (2017), Crustal deformation in the India-Eurasia collision zone from 25 years of GPS measurements, J. Geophys. Res., 122:9290-9312.

23. Gong, X., Y. Lou, W. Liu, F. Zheng, S. Gu, H. Wang (2017), Rapid ambiguity resolution over medium-to-long baselines based on GPS/BDS multi-frequency observables, Advances in Space Research, 59(3):794-803.

24. Zhang, K., R. Song, H. Wang, D. Wu, H. Wang (2016), Interferometric phase reconstruction using simplified coherence network, ISPRS Journal of Photogrammetry and Remote Sensing, 119:1-9.

25. Jiang, G., X. Xu, G. Chen, Y. Liu, Y. Fukahata, H. Wang, G. Yu, X. Tan, K. Li, C. Xu (2015), Geodetic imaging of potential seismogenic asperities on the Xianshuihe-Anninghe-Zemuhe fault system, southwest China, with a new 3D viscoelastic interseismic coupling model. J. Geophys. Res., 120:1855-1873.

26. Pagli, C., H. Wang, T. J. Wright, E. Calais, E. Lewi (2014), Current plate boundary deformation of the Afar rift from a 3D velocity field inversion of InSAR and GPS, J. Geophys. Res., 119: 8562–8575.

27. Ryder, I., H. Wang, L. Bie, A. Rietbrock (2014), Geodetic imaging of late postseismic lower crustal flow in Tibet, Earth Planet. Sci. Lett., 404:136-143.

28. Wang, H., J. R. Elliott, T. J. Craig, T. J. Wright, J. Liu-Zeng, A. Hooper (2014), Normal faulting sequence in the Pumqu-Xainza Rift constrained by InSAR and teleseismic body-wave seismology, Geochem. Geophys. Geosyst., 15(7):2947-2963.

29. Garthwaite, M. C., H. Wang, T. J. Wright (2013), Broadscale interseismic deformation and fault slip rates in the central Tibetan Plateau observed using InSAR. J. Geophys. Res., 118:5071-5083.

30. Wright, T. J., J. R. Elliott, H. Wang, I. Ryder (2013), Earthquake cycle deformation and the Moho: Implications for the rheology of continental lithosphere. Tectonophysics, 609: 504-523.

31. Wang, H., T. J. Wright (2012), Satellite geodetic imaging reveals internal deformation of western Tibet, Geophys. Res. Lett., 39, L07303, doi:10.1029/2012GL051222.

32. Wang, H., T. J. Wright, Y. Yu, H. Lin, L. Jiang, C. Li, and G. Qiu (2012), InSAR reveals coastal subsidence in the Pearl River Delta, China. Geophys. J. Int., 191(3): 1119-1128.

33. Wang, H., T. J. Wright, J. Biggs (2009), Interseismic slip rate of the northwestern Xianshuihe fault from InSAR data. Geophys. Res. Lett., 36, L03302, doi:10.1029/2008GL036560.

34. Wang, H., C. Xu, L. Ge (2007a), Coseismic deformation and slip distribution of the 1997 Mw7.5 Manyi, Tibet, earthquake from InSAR measurements. J. Geodyn., 44: 200-212.

35. Wang, H., L. Ge, C. Xu, Z. Du (2007b), 3-D coseismic displacement field of the 2005 Kashmir earthquake inferred from satellite radar imagery. Earth Planets Space, 59(5): 343-349.

36. Xu, C., H. Wang, L. Ge, C. Yonezawa, P. Cheng (2006), InSAR tropospheric delay mitigation by GPS observations: A case study in Tokyo area. J. Atmos. Sol-Terr. Phy., 68(6): 629–638.

 

二、授权专利:

 

三、出版著作:

 

寄语学生:仰望星空探寻科学方向,脚踏实地钻研测绘技术。



 

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