姓名:吴希文(Ng, Alex Hay-Man)
职称:教授
职务:bet356平台首页
导师类别:硕士研究生导师、博士研究生导师
电子邮箱:hayman.ng@gdut.edu.cn
研究方向:遥感与摄影测量
招生专业:科学学位:测绘科学与技术、信息与通信工程
专业学位:摄影测量与遥感、电子与通信工程
1.个人简介
吴希文,博士生导师,广东工业大学“百人计划”特聘教授、国家海外高层次青年引进人才、广东省青年拔尖人才支持计划入选者。学士和硕士就读于澳大利亚新南威尔士大学电气工程学院,2011年获得新南威尔士大学测量与空间信息系统系专业博士学位。先后在澳大利亚新南威尔士大学、麦考瑞大学等机构进行合作研究。主要从事卫星遥感图像分析方法及其应用、InSAR算法研制与软件开发、地表变化监测与建模、图像分类等研究,在国际学术期刊发表SCI论文六十余篇, 文章被引用一千余次(SCI), h-index为20。近年主持参与多项科研项目,如国家自然科学基金项目、国家重点研发计划课题、广东省自然科学基金项目等。担当多个国际知名的SCI学术杂志的审稿人、SCI期刊“Frontiers in Earth Science”的副主编和客座编辑、 “Remote Sensing”的编委和客座编辑。
2.学习与工作经历
教育背景:
2001年-2004年,澳大利亚新南威尔士大学电气工程学院,学士
2005年-2005年,澳大利亚新南威尔士大学电气工程学院,硕士
2006年-2011年,澳大利亚新南威尔士大学测量与空间信息系统工程学院,博士
工作经历:
2010年01月-2013年03月,新南威尔士大学测量与空间信息工程学院,助理研究员
2013年03月-2016年12月,新南威尔士大学土木与环境工程学院,助理研究员
2016年06月-2016年12月,澳大利亚麦考瑞大学,教学助理
2017年01月-2018年03月,广东工业大学,特聘副教授
2018年03月-今,广东工业大学,特聘教授
3.学术兼职
受邀担任多个国际权威期刊的审稿人和多个国际研究基金评审人。2017 年 1月至今担任澳大利亚新南威尔士大学客座研究员。2019年至今担当SCI期刊“Remote Sensing”的编委和该期刊特刊的客座编辑,2022年至今担当SCI期刊“Frontiers in Earth Science”的副主编。
4.荣誉与奖励
2022年,中国商业联合会,全国商业科技进步奖,二等奖, “基于多源数据融合方法的地表形变监测与安全评估关键技术”(1/12)
2013年,新南学威尔士大学博士后学院奖 (工程学院国际权威期刊出版第一名)
2010年,新南学威尔士工程学院博士后写作奖学金
2008年,澳洲测量和空间科学协会Asia-Pacific Spatial Excellence Awards (APSEA) -J.K. Barrie Award for Overall Excellence (团队奖)
2008年,澳洲测量和空间科学协会Asia-Pacific Spatial Excellence Awards (APSEA) - People and Community Industry Award (团队奖)
2006年,澳洲国家空间信息合作研究中心奖学金
窗体顶端
5.期刊论文
(1)近五年发表论文
[1] Du, Z., McCubbine, J., Garthwaite, M., Brown, N., Ng, A.H.-M.*, Deane, A., & Wang, L.W. (2023). Toward a Wide-Scale Land Subsidence Product in Eastern States of Australia. IEEE Transactions on Geoscience and Remote Sensing, 61, 5704720, 10.1109/TGRS.2023.3322579.
[2] Guo, B., Deng, L., Wang, R., Guo, W., Ng, A.H.-M.,* Bai, W. (2023). MCTNet: Multiscale Cross-Attention-Based Transformer Network for Semantic Segmentation of Large-Scale Point Cloud. IEEE Transactions on Geoscience and Remote Sensing, 61, 5213312, 10.1109/TGRS.2023.3299928.
[3] Ng, A.H.-M., Liu, Z., Du, Z., Huang, H., Wang, H., Ge, L. (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.
[4] He, Y., Ng, A.H.-M.*, Wang, H., Kuang, J.(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 Sensing, 2023, 15, 3236.
[5] Liu, Z., Ng, A.H.-M.*, Wang, H., Chen, J., Du, Z., Ge, L. (2023), Assessment of Land deformation in the West Pearl River Delta area and its influence by geological settings and land use changes revealed by InSAR Time-Series undefinedysis, International Journal of Applied Earth Observation and Geoinformation, 118, 103228
[6] Kuang, J., Ng, A.H.-M.*, Ge, L., Metternicht, G.I., Clark, S.R. (2023), Joint Use of Optical and Radar Remote Sensing Data for Characterizing the 2020 Aniangzhai Landslide Post-failure Displacement, Remote Sensing, 15(2), 369.
[7] Ng, A.H.-M.*, Ge, L., Cheng, M.C., Du, Z. (2023), Geodetic Monitoring for Land Deformation, Remote Sensing, 15(1), 283.
[8] Zhang, K., Gong, F.M., Li, L., Ng, A.H.-M., Liu, P.F., (2022), Mapping the Long-Term Evolution of the Post-Event Deformation of the Guang'an Village Landslide, Chongqing, China Using Multibaseline InSAR Techniques, Forests, 13(6): 18.
[9] Peng, L., Wang, H., Ng, A.H.-M., Yang, X., (2022). SAR Offset Tracking Based on Feature Points. Frontiers in Earth Science, 9, DOI: 10.3389/feart.2021.724965.
[10] Kuang, J., Ng, A.H.-M.*, Ge, L. (2022). Displacement Characterization and Spatial-Temporal Evolution of the 2020 Aniangzhai Landslide in Danba County Using Time-Series InSAR and Multi-Temporal Optical Dataset. Remote Sensing, 14(1), 68.
[11] Du, Z.Y., Ge, L., Ng, A.H.-M.*, Lian, X.G., Zhu, Q.G.Z. Horgan, F.G., Zhang, Q. (2021). undefinedysis of the impact of the South-to-North water diversion project on water balance and land subsidence in Beijing, China between 2007 and 2020. Journal of Hydrology, 603(B), 126990.
[12] Yan, Y., Yang, Q., Jia, Z., Zhang, X., Dai, H., Ng, A.H.-M.*. (2021). Integration of Multi-band InSAR and Leveling measurements for analyzing the surface subsidence of shield tunneling at Beijing-Zhangzhou high-speed railway. Journal of Sensors, 2021, 6640077.
[13] Dai, Y., Ng, A.H.-M.*, Wang, H., Li, L., Ge, L., Tao, T. (2021). Modelling-assisted InSAR Phase Unwrapping Method for Mapping Mine Subsidence. IEEE Geoscience and Remote Sensing Letters, 18, 1059-1063.
[14] Du, Z., Ge, L., Ng, A.H.-M., Zhang, Q. (2020). Towards a revised framework of modified time series InSAR for mapping land deformation. Journal of Geodesy, 94, 87.
[15] Du, Z., Ge, L., Ng, A.H.-M., Zhu, Q., Horgan, F.G., Zhang, Q. (2020). Risk assessment for tailings dams in Brumadinho of Brazil using InSAR time series approach. Science of the Total Environment, 717, 137125.
[16] Du, Z., Ge, L.*, Ng, A. H.-M.*, Zhu, Q., Zhang, Q., Kuang, J., Dong, Y. (2019). Long-Term Subsidence in Mexico City from 2004 to 2018 revealed by Five SAR Sensors. Land Degradation and Development, 1-17.
[17] Du, Z., Ge, L., Ng, A.H.-M., Zhang, Q. & Alamdari, M.M. (2018). Assessment of the Accuracy Among the Common Persistent Scatterer and Distributed Scatterer Based on SqueeSAR Method. IEEE Geoscience and Remote Sensing Letters, 15, 1877-1881.
[18] Du, Z., Ge, L., Ng, A.H.-M., Zhu, Q., Yang, X., Li, L. (2018). Correlating the subsidence pattern and land use in Bandung, Indonesia with both Sentinel-1/2 and ALOS-2 satellite images. International Journal of Applied Earth Observation and Geoinformation, 67, 54-68.
[19] Du, Z., Ge, L., Ng, A.H.-M., & Li, X. (2018). Investigation on mining subsidence over Appin-West Cliff Colliery using time-series Interferometry. International Journal of Remote Sensing, 39, 1528-1547.
[20] Du, Z., Ge, L., Ng, A.H.-M., Li, X., & Li, L. (2018). Monitoring of ground deformation in Liulin district, China using InSAR approaches. International Journal of Digital Earth, 11, 264-283.
[21] Du, Z., Ge, L., Ng, A.H.-M., Li, X., & Li, L. (2018). Mapping land subsidence over the eastern Beijing city using satellite radar interferometry. International Journal of Digital Earth, 11, 504-519.
[22] Ng, A.H.-M., Wang, H., Dai, Y., Pagli, C., Chen, W., Ge, L., Du, Z., Zhang, K. (2018). InSAR Reveals Land Deformation at Guangzhou and Foshan, China between 2011 and 2017 with COSMO-SkyMed Data. Remote Sensing, 10, 813.
(2)其他年份发表论文
[23] Ng, A.H.-M., Ge, L., Du, Z., Wang, S., & Ma, C. (2017). Satellite radar interferometry for monitoring subsidence induced by longwall mining activity using Radarsat-2, Sentinel-1 and ALOS-2 data. International Journal of Applied Earth Observation and Geoinformation, 61, 92-103.
[24] Wang, H., Liu-Zeng, J., Ng, A.H.-M., Ge, L., Javed, F., Long, F., Aoudia, A., Feng, J., Shao, Z. (2017). Sentinel-1 observations of the 2016 Menyuan earthquake: A buried reverse event linked to the left-lateral Haiyuan fault. International Journal of Applied Earth Observation and Geoinformation, 61, 14-21.
[25] Ng, A.H.-M., Ge, L., & Li, X. (2015). Assessments of Land Subsidence in the Gippsland Basin of Australia Using ALOS PALSAR Data. Remote Sensing of Environment, 159, 86-101.
[26] Ge, L., Ng, A.H.-M., Li, X., Abidin, H.Z., & Gumilar, I. (2014). Land subsidence characteristics of Bandung Basin as revealed by ENVISAT ASAR and ALOS PALSAR interferometry. Remote Sensing of Environment, 154, 46-60.
[27] Ng, A.H.-M., Ge, L., Li, X., Abidin, H.Z., Andreas, H. & Zhang, K. (2012). Mapping land subsidence in the Jakarta City, Indonesia using persistent scatterer interferometry (PSI) technique with ALOS PALSAR. International Journal of Applied Earth Observation and Geoinformation, 18, 232 - 242.
[28] Ng, A.H.-M., Ge, L., Li, X. & Zhang, K. (2012). Monitoring ground deformation in Beijing, China with Persistent Scatterer SAR Interferometry. Journal of Geodesy, 86, 375 - 392.
[29] Ng, A.H.-M., Ge, L., Zhang, K. & Li, X. (2012). Estimating horizontal and vertical movement due to underground mining using ALOS PALSAR. Engineering Geology, 143 - 144, 18 - 27.
[30] Ng, A.H.-M., Chang, H.C., Zhang, K., Ge, L., Rizos, C. & OMURA, M. (2011). Deformation mapping in three dimensions for underground mining using InSAR - Southern highland coal field in New South Wales, Australia. International Journal of Remote Sensing, 32, 7227 - 7256.
[31] Ng, A.H.-M., Ge, L., Yan, Y., Li, X., Chang, H.C., Zhang, K. & Rizos, C. (2010). Mapping accumulated mine subsidence using small stack of SAR differential interferograms in the Southern coalfield of New South Wales, Australia. Engineering Geology, 115, 1-15.
[32] Ng, A.H.-M., Chang, H.C., Ge, L., Rizos, C. & Omura, M. (2009). Assessment of radar interferometry performance for ground subsidence monitoring due to underground mining. Earth Planets and Space, 61, 733-745.
6.知识产权
(1)近五年知识产权
[1] 中国软件著作权,广东工业大学.基于WebGIS二次开发的形变监测成果在线展示系统V1.0,登记号:2020SR1587514. (郭晓彤、王华、吴希文、柏俊 、戴泉)
7.项目情况
(1)近五年项目
[1] “多源时序雷达干涉形变信号数据集成与挖掘方法”(42274016), 国家自然科学基金面上项目, 56万,2023-01至2026-12,主持
[2] “Study of polarimetric-assisted time-series interferometric SAR technique for land deformation detection and target characterization”(ER3A2N066), 第三次研究公告:地球观测合作研究计划,ALOS-2卫星数据项目,日本宇航局(JAXA), 2022-2025, 主持
[3] “基于时序InSAR与地表形变模型的开采沉陷监测方法研究”(2021A1515011483),广东省自然科学基金,10万,2021-2023,主持
[4] 广东省测绘实验教学示范中心(粤教高函【2020】19号),广东省实验教学示范中心立项建设项目,50万,2020.12至2025.12,项目负责人
[5] “粤港澳大湾区湿地系统水质改善、生态修复与多维调控”(2019ZT08L213),广东省“珠江人才计划”引进创新创业团队, 2020至2025,5000万,核心成员
[6] “极化InSAR 时间序列分析方法及其在广佛轨道交通沿线地面沉降监测中的应用”,广州市科研计划,20万,2019-2021,主持
[7] “雷达遥感灾害监测算法与应用方面的研究”,广东工业大学百人计划项目,300万,2018-2023,主持
[8] “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”专项课题,189.4万,2018-2022,参与
[9] “InSAR Reveals Long Term Subsidence with multi-platform SAR images”, ASI (Italy Space Agency) Open Call for Science Project (ID 697), COSMO-SkyMed卫星数据项目,2018-2020, 主持
[10] “顾及极化信息的多基线InSAR形变监测方法研究”,广东省自然科学基金,10万,2018-2021,主持
(2)其他年份项目
[11] “星载InSAR在监测地表沉降应用”,广东工业大学青年百人计划项目,20万,2017-2022,主持
[12] “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, 20万, 2017-2018, 参与
[13] “Advanced techniques for imaging radar interferometry”,澳大利亚研究委员会Discovery基金, 33万澳元,2013-2017,参与
[14] “Integrated radar and optical satellite remote sensing for safeguarding carbon capture and storage”,中澳洁净煤技术研究与发展联合协调基金, 120万澳元,2010-2014,参与
[15] “Monitoring Subsidence in Gippsland with InSAR”,澳大利亚维多利亚州环境部项目,9万澳元,2012-2013,参与
[16] “Razorback slop stability study with InSAR”, BHP Billiton,6万澳元,2008-2011,参与
[17] “Postdoctoral Writing Fellowship”,新南学威尔士大学,2.2万澳元,2010-2011,主持
[18] “New InSAR Technologies”,澳大利亚国家空间信息合作研究中心专用拨款,35万澳元,2007-2010,参与
[19] “Digital Elevation Model Generation and Differential Radar Interferometry”,澳大利亚国家空间信息合作研究中心专用拨款,30万澳元,2004-2007, 参与
8.我的团队
目前指导博士后1名,博士生2名、硕士研究生10余名。每年招收2~4名硕士研究生,1名博士生,常年招聘博士后等研究人员。
1)博士后要求:具有测绘(遥感、GNSS、地理信息等)、计算机、电子信息或地球科学等学科专业知识和研究经历;具备发表高水平论文的能力,以第一作者身份发表过SCI论文。
2)博士后待遇:基础年薪30万,获得国家基金奖金5万;资助学术型研究生/博士后至少其参加1次国际学术会议,发表SCI论文额外奖励。
3) 联系方式:hayman.ng@foxmail.com (一般当天回复,如三天内无回复,请重发)