张兴
团队名称:CSU三维监测团队
团队成员介绍:
年级:2018年博士研究生(在读)
研究方向:地下流体三维形变监测及地球物理参数反演方法研究
个人邮箱:lzxlzhangxing@csu.edu.cn
个人简历:
2013.09-2017.06,本科就读于贵州大学测绘工程;
2015.09-2016.06,本科生交换项目:贵州大学-中南大学
2017.09 -至今,硕博就读于中南大学
荣誉及获奖
2019年9月,中南大学“经纬-探路者”奖学金
2017年6月,贵州省优秀毕业生
发表论文:
Zhang, X., Hu, J., Motagh, M., Li, M., Wang, Y., Yang, Q., Su, G. and Wang, H., 2026. Groundwater volume loss and land subsidence in the North China plain investigated using wide-area InSAR surveying and mechanical modeling. Remote Sensing of Environment,333,p.115164. https://doi.org/10.1016/j.rse.2025.115164
Zhang, X., Sun, Q., Gui, R., Hu, J., Yang, Q. and Su, G., 2025. Long-time surface deformation in Beijing, China for three decades by multi-sensor, multi-track and multi-temporal InSAR seamless connection. Geomatics, Natural Hazards and Risk, 16(1),p.2478950. https://doi.org/10.1080/19475705.2025.2478950
Zhang X, Hu J, Jin X, et al. Resolving Three-Dimensional Displacements Caused by Subsurface Fluid Activities From InSAR and Volumetric Strain Model: Adaptive Estimation of Model Parameters[J]. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2024, 17: 4859-4874.
Zhang, X, Cheng Zhengfeng, Xu Bei, Gui Rong, Hu Jun, Yang Changjiang, Yang Qiuhong, and Xiong Tao. "Coupling the relationship between land subsidence and groundwater level, ground fissures in Xi’an city using multi-orbit and multi-temporal InSAR. Remote Sensing 15, no. 14 (2023): 3567. cited by Science (Global cases of groundwater recovery after interventions)
发明专利:
[1] 胡俊(导师), 张兴, 李志伟, 朱建军.一种基于邻轨数据的InSAR二维地表形变监测方法.发明专利编号ZL 2018 1 0582131.3(已授权)
[2] 江振, 吴子桂, 张兴, 徐进军, 胡俊, 欧立业, 吴玉炜, 张桐源. 升降轨InSAR 地下不稳定区三维形变监测方法. 2024.(实质审查阶段)
科研项目:
(1)中南大学研究生科研创新项目:基于弹性半空间理论的InSAR三维时序地表形变及地球物理参数反演的方法研究,项目编号:2020zzts190,2021.9-2025.12,主持。
(2) 德国宇航中心(DLR)编程数据合作计划:Multi-baseline InSAR DEM reconstruction method: A Case Study Deep excavation and High fill of South-to-North Water Transfer Project,2021.11-至今,主持。
(3) 德国宇航中心(DLR)存档数据合作计划:Surface response in the context of the south-to-north water transfer and groundwater management in Beijing (China) inferred from time series SAR interferometry,2022.09-至今,主持。