个人简历

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2024年招收1名专硕、1名学硕;博士名额待确定,有意向请发邮件给我。

简历
霍学深,男,副教授(博导),研究地球物理与水文大地测量。
科学方向:水文与海洋大地测量、潮汐与海平面变化、水文与气候、冰川消融及应用研究。
技术专业:空间大地测量数据分析,传感器校准及其应用。
通讯地址:武汉大学测绘学院,武汉市洪山区珞喻路129号,邮政编码:430079
电话号码:(+86) 027 6877 8404/(+86) 027 6877 8649
电子邮箱:xshhuo@sgg.whu.edu.cn
研究方向:  地球物理学/大地测量学/测绘科学与技术

一、教育经历
2012.12 美国俄亥俄州立大学地球科学博士,大地测量/卫星海洋学专业
2007.09 香港理工大学硕士 ,大地测量专业
2003.06 香港理工大学本科,土地测量及地理信息专业
工作经历
2013.11- 现在 武汉大学测绘学院,副教授(博导)
2012.11-2013.10 美国俄亥俄州立大学,博士后研究员
2007.09-2012.09 美国俄亥俄州立大学,研究生副研究员
2008.08-2008.09 香港理工大学,副研究员
2003.09-2007.09 香港理工大学,助理研究员
三、主要学术兼职
2022-Remote Sensing Special Issue “Geodesy of Earth Monitoring System” 专刊副主编(https://www.mdpi.com/journal/remotesensing/special_issues/Geodesy_earth)
2021-Remote Sensing Special Issue “Carbon, Water and Climate Monitoring Using Space Geodesy Observations” 专刊主编(https://www.mdpi.com/journal/remotesensing/special_issues/carbon_water_climate_geodesy)
2021-现今 Remote Sensing 主题编辑
2021-现今 Journal of Geodetic Science 编辑
美国土木工程师协会(American Society of Civil Engineers) 成员
美国地球物理协会(American Geophysical Union) 成员
国际大地测量协会(International Association of Geodesy) 会员
国际大地测量协会(International Association of Geodesy) Joint Working Group 2.4 成员 (2011-2015)
四、获奖情况
2013年,湖北省“楚天学子”支持计划入选者
2011年,获Kaarina and Weikko A. Heiskanen Junior Award奖,颁发给最好的大地测量学的研究生或博士后研究员,美国俄亥俄州立大学(500美元)
2011年,NASA 学术交流和差旅公费奖,喷射推进实验室(JPL)/俄勒冈州立大学联合GNSS反射研讨会,美国加州NASA喷射推进实验室(1,000美元)
2010/11年,美国国家海洋和大气管理局(NOAA) 实验室学术交流和差旅公费,颁发给青年科学家(3,500美元)
2009年,俄亥俄州立大学地球科学学院Friend of Orton学术交流和差旅公费奖(300美元)
2008年,俄亥俄州立大学地球科学学院Friend of Orton学术交流和差旅公费奖(300美元)
2000/01年,香港工程测量师学会奖学金(5000港元)
五、科研项目
1. 联合卫星大地测量与海洋模式定量研究河口物质迁移对海平面异常变化的机制, 国家自然科学基金面上项目,主持人, 2017.01–2020.12, 项目批准号: 41674007,已结题
2. 利用多源卫星测高数据分析海潮研究中的若干关键问题, 国家自然科学基金面上项目, 主持人, 2014.01–2017.12, 项目批准号: 41374010,已结题
3. 联合大地测量和水文数据分析河口流量与潮汐的相互效应, 中央高校基本科研业务费专项资金(自主科研-学科交叉类), 主持人, 2015.01–2016.12, 项目批准号: 2042015kf0186,已结题
4. 基于GRACE重力卫星探究水体湿度分量季节性变化及其在干旱监测中的应用研究-以海河流域为例, 中央高校基本科研业务费专项资金 (自主科研-青年教师资助), 参与人(排第一), 2015.01–2016.12, 项目批准号: 2042015kf0186,已结题
5. 联合多源大地测量与地球物理数据研究青藏高原地区物质迁移, 国家自然科学基金, 参与人(排第四), 2015.01–2018.12, 项目批准号: 41429401,已结题
6. 顾及交互相关的GPS时间序列时变速度模型建立方法研究, 国家自然科学基金, 参与人(排第一), 2014.01–2016.12, 项目批准号: 41304007,已结题
7. Estuary and ice-shelf ocean tide modeling using InSAR, NASA Geodetic Imaging (PI: C. Shum, OSU), 副主持人, 2012.03–2015.03,已结题
六、教研项目
1. 本科生在测绘专业通识课程中的学习心理与成绩的相关性分析, 本科教学工程建设项目, 主持人, 2016.09–2018.09,  财务号: 503-413200006
2. 2021年武汉大学本科教育质量建设综合改革项目“地球物理学本科教育建设”项目子课题《基于导师制的地球物理本科生科研能力与创新培养模式探索》, 主持人, 2021.04–2023.04
3. 2023年武汉大学本科教育质量建设综合改革项目“地球物理学本科课程综合建设一流本科专业建设项目”子课题《基于企业“师带徒”制的地球物理本科生科研导师制管理模式的建设》, 主持人, 2023.04–2025.04
七、论文、技术顾问报告及专著
专著与教材
霍学深,李姬喆,数学物理方程学习辅导[M]. 科学出版社,2016年11月

教学论文发表
霍学深, 陈昱同, 罗佳. 测绘专业本科科研导师制的实践与问题,武汉大学 2021 年“教与学的革命”珞珈论坛优秀论文集 [M], 2022: 153–159.
霍学深
. 本科生学习数学物理方程的阶段性影响因素分析[J]. 教育教学论坛, 2022(14): 223-225.
霍学深
, 贺清. 《数学物理方程》课程评价国际化及在测绘专业拓展的初探[J]. 教育教学论坛, 2018(14): 223-225.
霍学深, 贺清, 肖翼忻. 测绘专业《地球科学概论》课程国际化教学模式的初探[J]. 教育教学论坛, 2017 (10): 179-181.
霍学深, 贺清. 新版布鲁姆目标分类理论对测绘专业英语教学的启示[J]. 教育教学论坛, 2016 (5): 146-147.
Iz, H.B., H.S. Fok (2007), Use of Bloom’s taxonomic complexity in online multiple choice tests in Geomatics education, Survey Review, 39 (305), 226–237. doi: 10.1179/003962607X165195 [SCI] (IF =0.58)

学术论文发表
2023年
Yang, P., H.S. Fok, Z. Ma (2023), Advances in Space Research [in review] [SCI] (IF =2.61)
Fok, H.S., Z. Ma (2023), Advances in Space Research. [in review] [SCI] (IF =2.61)
He, Q., H.S. Fok*, V.G. Ferreira, R. Tenzer, Z. Ma, H. Zhou(2023), Three-dimensional Budyko framework incorporating terrestrial water storage: Unraveling water-energy dynamics, vegetation, and ocean-atmosphere interactions, Science of the Total Environment, 904, 166380. [SCI] (IF =10.75)
Yang, P., H.S. Fok*, Z. Ma (2023), Mapping long-term spatial impact of ENSO on hydroclimatic variables in China, Advances in Space Research, 72(6): 2195-2216. [SCI] (IF =2.61)
Fok, H.S.
, Y. Chen, Z. Ma, V.G. Ferreira, R. Tenzer (2023), Geographically-weighted water balance approach for satellite-hydrologic runoff estimation in Mekong Basin under ENSO. International Journal of Applied Earth Observation and Geoinformation118, 103234. [SCI] (IF =7.67)
Ma, Z., H.S. Fok* (2023), Gravimetry-based terrigenous freshwater extension in the southwestern South China Sea and its response to monsoon under ENSO, Science of the Total Environment, 857, 159583. [SCI] (IF =10.75)

2022年

Fok, H.S., Y. Chen, L. Zhou (2022), Daily runoff and its potential error sources reconstructed using individual satellite hydrological variables at the basin upstream, Frontiers in Earth Science, 10.3389/feart.2022.821592. [SCI] (IF =3.66)
Fok, H.S., Y. Chen, L. Zhou (2022), Prospects for Reconstructing Daily Runoff from Individual Upstream Remotely-Sensed Climatic Variables, Remote Sensing, 14(4), 999. [SCI] (IF =5.35)

2021年
Fok, H.S., Z. Ma (2021), Characterization of Far-field Mekong Freshwater Mass Transport in the Southern South China Sea using satellite gravimetry, Global and Planetary Change, 207, https://doi.org/10.1016/j.gloplacha.2021.103686. [SCI] (IF =5.11)
Shi, T., H.S. Fok*, Z. Ma (2021), Interactive Contribution of Indian Summer Monsoon and Western North Pacific Monsoon to water level and terrestrial water storage in the Mekong Basin. Remote Sensing, 13(17), 3399. [SCI] (IF =4.85) [本科生为第一作]
Zou, F., R. Tenzer, H.S. Fok*, G. Meng, Q. Zhao (2021), The sea level changes in Hong Kong from tide-gauge records and remote sensing observations over the last seven decades, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 10.1109/JSTARS.2021.3087263. [SCI] (IF =3.78)
Fok, H.S.
, Y. Chen, L. Wang, R. Tenzer, Q. He (2021), Improved Mekong Basin Runoff Estimate and Its Error Characteristics Using Pure Remotely Sensed Data Products. Remote Sensing, 13(5), 996. [SCI] (IF =4.85)
Ma, Z., H.S. Fok*, L. Zhou (2021), GRACE-derived time lag of Mekong Estuarine Freshwater Transport in the western South China Sea validated by Isotopic Tracer Age. Remote Sensing, 13(6), 1193. [SCI] (IF =4.85)

2020年
Lai, Y.-R., L. Wang, M. Bevis, H.S. Fok, A. Alanazi (2020), Truncated singular value decomposition regularization for estimating terrestrial water storage changes using GPS: A case study over Taiwan, Remote Sensing, 12(23), 3861. [SCI] (IF =4.85)
Peng, H., H.S. Fok*, J. Gong, L. Wang (2020), Improving Stage-Discharge Relation in the Mekong River Estuary by Remotely Sensed Long-Period Ocean Tides, Remote Sensing, 12(21), 3648. [SCI] (IF =4.85) [本科生为第一作]
Zou, F., R. Tenzer, H.S. Fok*, J.E. Nichol (2020), Recent Climate Change Feedbacks to Greenland Ice Sheet Mass Changes from GRACE, Remote Sensing, 12(19), 3250. [SCI] (IF =4.85)
Fok, H.S., L. Zhou, H. Ji (2020), Mekong Delta Runoff Prediction Using Standardized Remotely-Sensed Water Balance Variables, Water, 12(7), 2025. [SCI] (IF =3.10)
Du, H., H.S. Fok*, Y. Chen, Z. Ma (2020), Characterization of Recharge–Storage–Runoff Processes of the Yangtze River Source Region under Climate Change, Water, 12(7), 1940. [SCI] (IF =3.10) [本科生为第一作]
Zou, F., R. Tenzer, H.S. Fok*, J.E. Nichol (2020), Mass balance of the Greenland Ice Sheet from GRACE and surface mass balance modelling, Water, 12(7), 1847. [SCI] (IF =3.10) [chosen as “Editor‘s Choice Article”]
Fok, H.S., L. Zhou, Y. Liu, R. Tenzer, Z. Ma, F. Zou (2020), Water Balance Standardization Approach for Reconstructing Mekong Delta Runoff using GPS at the Basin Upstream GPS, Remote Sensing, 12(11), 1767. [SCI] (IF =4.85)
He, Q., K.P. Chun, H.S. Fok, Q. Chen, B. Dieppois, N. Massei (2020), Water storage redistribution over East China, between 2003 and 2015, driven by intra- and inter-annual climate variability, Journal of Hydrology, 583, 124475, doi: 10.1016/j.jhydrol.2019.124475. [SCI journal] (IF =5.72)
Chun, K.P., Q. He, H.S. Fok, S. Ghosh, O. Yetemen, Q. Chen, A. Mijic (2020), Gravimetry-based water storage shifting over the China-India border area controlled by regional climate variability, Science of the total environment, 714, 136360. doi: 10.1016/j.scitotenv.2019.136360. [SCI journal] (IF =7.96)
Li, C., S. Huang, Q. Chen, T. van Dam, H.S. Fok, Q. Zhao, W. Wu, X. Wang (2020), Quantitative evaluation of environmental loading induced displacement products for correcting GNSS time series in CMONOC, Remote Sensing, 12(4): 594. doi: 10.3390/rs12040594. [SCI journal] (IF =4.85)
Fok, H.S., L. Zhou, Y. Liu, Z. Ma, Y. Chen (2020), Upstream GPS Vertical Displacement and Its Standardization for Mekong River Basin Surface Runoff Reconstruction and Estimation, Remote Sensing, 12(1): 18. doi: 10.3390/rs12010018. [SCI journal] (IF =4.85)

2019年

Chen, Y., H.S. Fok*, Z. Ma, R. Tenzer (2019), Improved Remotely Sensed Total Basin Discharge and its Seasonal Error Characterization in the Yangtze River Basin, Sensors, 19(15),3386. doi:10.3390/s19153386 [SCI] (IF =3.58) [本科生为第一作]
Liu, Y., H.S. Fok*, R. Tenzer, Q. Chen, X. Chen (2019), Akaike’s Bayesian Information Criterion for the Joint Inversion of Terrestrial Water Storage Using GPS Vertical Displacements, GRACE and GLDAS in the Southwest China, Entropy, 21(7), 664. doi:10.3390/e21070664 [SCI] (IF =2.52)
Fok, H.S., Y. Liu (2019), An Improved GPS-Inferred Seasonal Terrestrial Water Storage Using Terrain-Corrected Vertical Crustal Displacements Constrained by GRACE, Remote Sensing, 11(12), 1433. doi: 10.3390/rs11121433 [SCI] (IF =4.85)
Zhou, L., H.S. Fok*, Z. Ma, Q. Chen (2019), Upstream Remotely-Sensed Hydrological Variables and their Standardization for Estuarine Surface Runoff Reconstruction and Estimation of the Entire Mekong River Basin, Remote Sensing, 11(9), 1064. doi: 10.3390/rs11091064 [SCI] (IF =4.85) [本科生为第一作]

2018年

He, Q., H.S. Fok*, Q. Chen, K.P. Chun (2018), Water Level Reconstruction and Prediction Based on Space-Borne Sensors: A Case Study in the Mekong and Yangtze River Basins, Sensors, 18(9), 3076. doi:10.3390/s18093076 [SCI] (IF =3.28)
Fok, H.S., Q. He (2018), Water Level Reconstruction Based on Satellite Gravimetry in the Yangtze River Basin, ISPRS Int. J. Geo-Inf., 7(7): 286. doi:10.3390/ijgi7070286 [SCI] (IF =2.90)
肖翼忻, 霍学深, 申文斌 (2018), 三维各向异性重力正演模型的高阶展开项评估[J]. 地球科学前沿, 2018, 8(3): 500-512. doi: 10.12677/ag.2018.83054
Fok, H.S., Q. He, K.P. Chun, Z. Zhou, T. Chu (2018), Application of ENSO and Drought Indices for Water Level Reconstruction and Prediction: A Case Study in the Lower Mekong River Estuary, Water, 10(1): 58. doi:10.3390/w10010058. [SCI] (IF =3.10)

2016年

Zhang, B., Y. Yao*, H.S. Fok*, Y. Hu, Q. Chen (2016) Potential seasonal terrestrial water storage monitoring from GPS vertical displacements: A case study in the lower three-rivers headwater region, China, Sensors, 16: 1526. doi:10.3390/s16091526 [SCI] (IF =3.58)
吴世克, 王久娟, 陈道毅, 霍学深. 基于高分辨率高度计沿轨数据吕宋海峡亚中尺度过程季节波动分析[J]. 应用海洋学学报, 2016, 35(4):484-490.

2015年
Liu, Y., C. Xu, Y. Wen, H.S. Fok (2015), A New Perspective on fault geometry and slip distribution of the 2009 Dachaidan Mw 6.3 earthquake from InSAR data observations, Sensors, 15: 16786–16803. doi:10.3390/s150716786 [SCI] (IF =3.58)
Fok, H.S. (2015), Data Fusion of Multisatellite Altimetry for Ocean Tides Modeling: A Spatio-Temporal Approach with Potential Oceanographic Applications, International Journal of Image and Data Fusion, 6(3): 232-248. doi: 10.1080/19479832.2015.1050074
He, P., Y. Wen, C. Xu, Y. Liu, H.S. Fok (2015), New Evidence for Active Tectonics at the Boundary of the Kashi Depression, China, from Time Series InSAR Observations, Tectonophysics, 653, 140–148. [SCI] (IF =3.93)

2014年
Liu, R., J. Li, H.S. Fok, C.K. Shum, Z. Li (2014), Earth surface deformation using GRACE and GPS techniques in the North China Plain, Sensors, 14: 19861–19876. doi:10.3390/s141019861. [SCI] (IF =3.58)
Stammer, D., R.D. Ray, O.B. Anderson, B.K. Arbic, W. Bosch, L. Carrere, Y. Cheng, D.S. Chinn, B.D. Dushaw, G.D. Egbert, S.Y. Erofeeva, H.S. Fok, J.A.M. Green, S. Griffiths, M.A. King, F.G. Lemoine, S.B. Luthcke, F. Lyard, J. Morison, M. Muller, L. Padman, J.G. Richman, J.F. Shriver, C.K. Shum, E. Taguchi, Y. Yi (2014), Accuracy assessment of global ocean tide models, Reviews of Geophysics, 52, 243-282. [SCI] (IF =22.00) (ESI高被引论文)
Zhou, X., H.S. Fok* (2014), Contemporary progress of GPS time series noise characterization for continental plate motion, International Journal of Earth Sciences and Engineering, 7(1): 60–66. [EI]
Wang, X., X.Cheng, F. Hui, C. Cheng, H.S. Fok, Y. Liu (2014), XUELONG navigation in fast ice near the Zhongshan station, Antaractica, Marine Technology Society Journal, 48(1), 84–91. [SCI] (IF =0.71)

2013年
Fok, H.S.
, C.K. Shum, Y. Yi, A. Braun, H.B. Iz (2013), Evidence of seasonal variation of altimetry derived ocean tides in the sub-arctic ocean, Terrestrial, Atmospheric and Oceanic Sciences, 24(4), 605–613. [SCI] (IF =1.01)
Huang, Z.W., J.Y. Guo, C.K. Shum, J.K. Wan, J.B. Duan, H.S. Fok, C.Y. Kuo (2013), On the accuracy of glacial isostatic adjustment models for geodetic observations to estimate Arctic Ocean sea-level change, Terrestrial, Atmospheric and Oceanic Sciences, 24(4), 471–490. [SCI] (IF =0.70)
Tseng, K.-H., C.K. Shum, Y. Yi, H.S. Fok, H. Lee, X. Cheng, X. Wang (2013), Envisat altimetry radar waveform retracking of quasi-specular echoes over ice-covered Qinghai lake, Terrestrial, Atmospheric and Oceanic Sciences, 24(4), 615–627. [SCI] (IF =0.70)

2012年

Wang, X., Y. Chao, C.K. Shum, Y. Yi, H.S. Fok (2012), Comparison of Two Methods to Assess Ocean Tide Models, Journal of Atmospheric and Oceanic Technology, 29(8), 1159– 1167. doi:10.1175/JTECH-D-11-00166.1 [SCI] (IF =2.08)

2011年
Fok, H.S.
, C.K. Shum, Y. Yi, H. Araki, J. Ping, J.G. Williams, G. Fotopoulos, H. Noda, S. Goossens, Q. Huang, Y. Ishihara, K. Matsumoto, J. Oberst, and S. Sasaki (2011), Accuracy assessment of lunar topography models, Earth, Planets, and Space, 63(1), 15–23. doi:10.5047/eps.2010.08.005 [SCI] (IF =2.36)

2010年
Fok, H.S.
, H.B. Iz, C.K. Shum, Y. Yi, O. Andersen, A. Braun, Y. Chao, G. Han, C.Y. Kuo, K. Matsumoto, Y.T. Song (2010), Evaluation of ocean tide models used for Jason-2 altimetry corrections, Marine Geodesy, 33(S1), 285–303. doi:10.1080/01490419.2010.491027 [SCI] (IF =1.67)

2009年

Fok, H.S. (2009), Evaluation of international terrestrial reference frame colocated ties through compatibility testing, Journal of Surveying Engineering, ASCE 135(1), 27–32. doi: 10.1061/(ASCE)0733-9453(2009)135:1(27) [SCI] (IF =2.18)
Fok, H.S., H.B. Iz, B. Schaffrin (2009), Comparison of four geodetic network densification solutions, Survey Review, 41 (311), 44–56. doi: 10.1179/003962608X389997. [SCI] (IF =1.74)

2008年
Pang, W.T., H.S. Fok, H.B. Iz (2008), Mapping impervious surface areas from GIS planimetric data, Survey Review, 40 (308), 108–115. doi: 10.1179/003962608X253565 [SCI] (IF =1.74)

2007年
Iz, H.B., H.S. Fok (2007), Use of Bloom’s taxonomic complexity in online multiple choice tests in Geomatics education, Survey Review, 39 (305), 226–237. doi: 10.1179/003962607X165195 [SCI] (IF =1.74)

2003年
Fok, H.S.
, H.B. Iz (2003), A comparative analysis of the performance of iterative and noniterative solutions to the Cartesian to Geodetic coordinate transformation, Journal of Geospatial Engineering, 5(2), 61–74.

技术顾问报告

Fok, H.S. (2012), Ocean tides modeling using satellite altimetry, Geodetic Science Report 501, Division of Geodetic Science, School of Earth Sciences, Ohio State University. [博士论文]
Yi, Y., H.S. Fok, and C.K. Shum: Support for GFO-1 sensor performance and measurement system validation, OSU Technical Report, No. 71 – 78. [为计算机科学公司和美国海军,每2个月提交技术顾问报告]