Gender:Male
Date of Birth:1989-09-26
Date of Employment:2017-07-01
Business Address:中国地质大学(武汉)未来城校区地理与信息工程学院651
Contact Information:zhangzj@cug.edu.cn
Administrative Position:副研究员
张正加
Associate researcher
Click:
The Last Update Time:..
Degree:Doctoral Degree
Education Level:Faculty of Higher Institutions
Alma Mater:中国科学院大学
Professional Title:Associate researcher
tshonorceng2021年 指导学生参加第四届“航天宏图杯”PIE遥感图像处理软件二次开发大赛云开发组特等奖
2020年度创新创业教育优秀指导老师
2020年 指导学生参加第三届“航天宏图杯”PIE遥感图像处理软件二次开发大赛特等奖
2019年 指导学生参加中国大学生GIS软件开发遥感应用组特等奖
2015-2016年度 博士研究生国家奖学金
2015-2016年度 北京航天宏图奖学金
2014-2015年度 中国科学院大学三好学生
School/Department:地理与信息工程学院
email:
张正加,博士,副教授,硕士生导师。2012年毕业于合肥工业大学资源与环境工程学院,获地理信息系统专业学士学位。2017年6月毕业于中国科学院遥感与数字地球研究所,获地图学与地理信息系统博士学位。2017年7月就职于中国地质大学(武汉)信息工程学院,遥感技术与科学系。2021年12月-2022年12月在香港中文大学访问交流。主要的研究方向包括:合成孔径雷达干涉测量算法研究及在地面沉降、地质灾害和青藏高原冻土环境监测中的应用。现主持中国自然科学基金青年基金、中央高校基金等项目项,作为技术骨干参与多项国家级项目。合作出版学术专著一部,发表学术论文60余篇,其中SCI论文40余篇,第一/通讯作者20篇(中科院一区9篇),申请国家发明专利10余项(已授权5项)。获得湖北省科技进步奖、国家电网科技进步奖等省部级奖励2项。2019~2022年,连续4年指导本科生参加遥感领域专业软件开发技能竞赛获特等奖、一等奖。2021~2023年连续三年获中国地质大学(武汉)地理与信息工程学院“创新创业教育”优秀指导老师。担任RSE,IEEE TGRS,JAG,GIG&Remote sensing,遥感学报等领域期刊审稿人。
热烈欢迎有遥感/测绘/地理信息/计算机科学与技术等背景的同学报考或交流学习!
Researchgate主页:https://www.researchgate.net/profile/Zhengjia-Zhang-2
微信公众号:“极目地球”
代表性学术论文
1. Guo, J., Zhang, Z.*, Ma, P., Wang, M., Gao, W., & Liu, X. (2025). SFD-YOLO: A novel framework for subsidence funnels detection in China based on large-scale SAR interferograms. International Journal of Applied Earth Observation and Geoinformation, 104605. (T1,中科院一区,top 期刊)
2. Zhang, Z., Wang, Q., Jin, Q., Wang, M., (2025). Exploring Ground Ice Dynamics in central Qinghai-Tibet Plateau Permafrost Region Using SAR interferometry, Landsat and ICESat-2 data. Journal of Climate. (T1, 中科院二区,top 期刊)
3. Feng, X., Zhang, Z.*, Chen, Q., Zhiling, G., Zhang, H., Wang, M., ... & Liu, X. (2025). Integrating Remote Sensing, GIS, and Multi-Criteria Decision Making for Assessing PV Potential in Mountainous Regions. Renewable Energy, 122340. (T2,中科院一区,top 期刊)
4. Zhang, Z., Jin, Q., Liu, L., Wang, M., Zhang, X. (2025). Improved ALT retrieval in the Yellow River Source Region Using Time-series InSAR and Multilayer Soil Moisture Modeling. Journal of Hydrology. (T1, 中科院一区,top 期刊)
5. Zhang, Z., Chen, F., Lin, H., Wang, C., Liu, X., Wang, M., Luo, J. (2025). Characterizing the Impact of Climate Change and Human Activities on Permafrost along the Qinghai–Tibet Railway through Satellite Observations. The Innovation Geoscience.
6. Zhang, Z., Wu, Y., Guo, J., Wang, J. (2025). A Novel Approach for Permafrost Deformation Prediction by Integrating InSAR and Multi-factor Permafrost Deformation LSTM (MPD-LSTM). International Journal of Remote Sensing. (T3, 中科院三区)
7. Zhang, Z., Wang, Q., Ma, P., Wang, M., & Jiang, X (2024). Insights into permafrost aggradation and thawing: A case study of Zonag Lake on the Qinghai–Tibet Plateau using SAR interferometry. Earth Surface Processes and Landforms. (T2, 中科院二区)
8. Guo, J., Zhang, Z.*, Wang, M., Ma, P., Gao, W., & Liu, X. (2024). Automatic Detection of Subsidence Funnels in Large-Scale SAR Interferograms Based on an Improved-YOLOv8 Model. IEEE Transactions on Geoscience and Remote Sensing, 62, 1-17. (中科院一区,top 期刊)
9. Deng, H., Zhang, Z.*, & Wu, Y. (2024). Accelerated permafrost degradation in thermokarst landforms in Qilian Mountains from 2007 to 2020 observed by SBAS-InSAR. Ecological Indicators, 159, 111724. (T2, 中科院一区,top 期刊)
10. Ma, P., Wu, Z., Zhang, Z., & Au, F. T. (2024). SAR-Transformer-based decomposition and geophysical interpretation of InSAR time-series deformations for the Hong Kong-Zhuhai-Macao Bridge. Remote Sensing of Environment, 302, 113962. (T1, 中科院一区,top 期刊)
11.姜修成, 张正加*, 王猛猛, 刘修国, 陈启浩. (2024). 基于特征值分解和自适应滤波的极化相位优化方法. 遥感学报, 28(3).(T2,EI)
12. 张正加, 林洪, 陈富龙, 冯晓帆, 王猛猛, 刘修国.(2024).顾及形变信息的青藏铁路工程走廊融沉风险评估. 地球信息科学学报, 26(11): 2552-2566.(T3,EI)
2023年度及之前学术论文
1. Zhang, Z., Wang, Q., Liu, Z., Chen, Q., Guo, Z., & Zhang, H. (2023). Renew mineral resource-based cities: Assessment of PV potential in coal mining subsidence areas. Applied Energy, 329, 120296. (SCI, T1)
2. Zhang, Z., Lin, H., Wang, M., Liu, X., Chen, Q., Wang, C., & Zhang, H. (2022). A Review of Satellite Synthetic Aperture Radar Interferometry Applications in Permafrost Regions: Current Status, Challenges, and Trends. IEEE Geoscience and Remote Sensing Magazine. (SCI, T2)
3. Zhang, Z., Jiang, X., Wang, M., Liu, X., Wang, Q., & Li, R. (2022). A phase-decomposition-based polarimetric coherence optimization method. International Journal of Applied Earth Observation and Geoinformation, 110, 102771. (SCI, T2)
4. Zhang, Z. J., Wang, M. M., Liu, X. G., et al., Map and Quantify the Ground Deformation around Salt Lake in Hoh Xil, Qinghai-Tibet Plateau using time-series InSAR from 2006 to 2018, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2020. (SCI, T2)
5. Zhang, Z. J., Wang, M. M., Liu, X. G., et al., Deformation Feature Analysis of Qinghai-Tibet Railway using TerraSAR-X and Sentinel-1A Time-series Interferometry, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2019. (SCI, T2)
6. Zhang, Z. J., Wang, M. M., Liu, X. G., et al., Permafrost Deformation Monitoring Along the Qinghai-Tibet Plateau Engineering Corridor Using InSAR Observations with Multi-Sensor SAR Datasets from 1997–2018, Sensors, 2019 (SCI, T2)
7. Zhang Z. J., Wang C, Wang M, et al. Surface Deformation Monitoring in Zhengzhou City from 2014 to 2016 Using Time-Series InSAR. Remote Sensing, 2018, 10(11): 1731.(SCI, T2)
8. Zhang, Z.J., Wang, C. Zhang, H. Tang, Y. Liu, X. Analysis of Permafrost Region Coherence Variation in the Qinghai–Tibet Plateau with a High-Resolution TerraSAR-X Image. Remote Sensing 2018, 10, 298.( SCI, T2)
9. Zhang, Z. J., Wang C., Tang, Y. X., Zhang, H., and Fu, Q., "Analysis of ground subsidence at a coal-mining area in Huainan using time-series InSAR," International Journal of Remote Sensing, vol. 36, pp. 5790-5810, 2015.( SCI, T3)
10. Zhang, Z. J., Wang C., Tang, Y. X., Fu, Q., and Zhang, H., "Subsidence monitoring in coal area using time-series InSAR combining persistent scatterers and distributed scatterers," International Journal of Applied Earth Observation and Geoinformation, vol. 39, pp. 49-55, 2015.( SCI, T2)
11. Tang, Y. X., Zhang, Z. J*., Wang C., Zhang, H., Wu, F., Zhang, B., M. Liu, “The deformation analysis of Wenjiagou giant landslide by the distributed scatterer interferometry technique”, Landslide, vol. 15, pp :1-11, 2017 (SCI, T2).
12. Dai, S., Zhang, Z., Li, Z., Liu, X., & Chen, Q. (2023). Prediction of Mining-Induced 3-D Deformation by Integrating Single-Orbit SBAS-InSAR, GNSS, and Log-Logistic Model (LL-SIG). IEEE Transactions on Geoscience and Remote Sensing, 61, 1-13. (中科院一区,top 期刊)
13. Wang, M, Zhang, Z. J., Hu T, et al. An efficient Framework for Producing Landsat Based Land Surface Temperature Data using Google Earth Engine [J], IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2020.(SCI, T2)
14. Zhou X., Zhang, Z. J., Chen Q. H., et al. A Practical Plateau Lake Extraction Algorithm Combining Novel Statistical Features and Kullback-Leibler Distance Using Synthetic Aperture Radar Imagery[J]. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2020.(SCI, T2)
15. Wang, M. M., Zhang, Z. J., Hu, T., & Liu, X.. A Practical Single‐Channel Algorithm for Land Surface Temperature Retrieval: Application to Landsat Series Data. Journal of Geophysical Research: Atmospheres, 2019,124(1), 299-316. (SCI, T1)
16. Wang C., Zhang Z. J., Paloscia S, et al. Permafrost Soil Moisture Monitoring Using Multi-Temporal TerraSAR-X Data in Beiluhe of Northern Tibet, China. Remote Sensing, 2018, 10(10): 1577. (SCI, T2)
17. Wang C., Zhang Z. J., Zhang H, et al. Active Layer Thickness Retrieval of Qinghai–Tibet Permafrost Using the TerraSAR-X InSAR Technique. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2018, 11(11): 4403-4413. (SCI, T2)
18. Wang C., Zhang, Z. J., Zhang, H., Wu, Q. B., Zhang, B., Tang, Y. X., “Seasonal deformation features of Qinghai-Tibet Railway observed by High-resolution TerraSAR-X using time-series InSAR technique,” Remote Sensing Letters,2016 (SCI, T3)
19. Tang, Y. X., Zhang, Z. J., Wang C., Zhang, H., Wu, F., and Liu, M., "Characterization of the giant landslide at Wenjiagou by the insar technique using TSX-TDX CoSSC data," Landslides, pp. 1-7, 2015.( SCI, T2)
20. 宫熙雯,张正加,陈启浩,刘修国.融合DInSAR和MAI技术反演九寨沟地震三维形变场.测绘工程, 30(5), 49,2021. (CSCD)
21. 范鹏, 王硕, 张正加, 刘修国, 陈启浩.高分辨率时序 InSAR 技术在青藏输电杆塔精细形变监测中的应用. 测绘通报, (3), 118,2021.(CSCD)
会议论文
1. Zhang, Z. J., Fan, P., Liu, X. G., Wang, M. M., Wang, C., Zhang H., “Structure health and stablility assessment of Qinghai-tibet power transmission line with time-series InSAR using X-band TerraSAR-X data,” IGASS2019. (EI)
2. Zhang, Z. J., Wang, M. M., Liu, X. G., Chen, Q. H., Wang, C., Zhang H., “Deformation Monitoring of Qinghai-Tibet Railway from 1997-2018 using SAR Interferometry with Multi-sensors SAR Datasets,” BIGSARDATA2019. (EI)
3. 张正加,王超,刘修国,王猛猛,史绪国,基于InSAR技术青藏高原铁路多尺度形变监测,ADSAR2018
4. Zhang, Z. J., Tang, Y. X., Zhang, H., and Wang, C., “Phase Estimation for Distributed Scatterer INSAR: A comparison between different methods, ” in EUSAR 2014; 10th European Conference on Synthetic Aperture Radar; Proceedings of, 2014, pp. 1-4. (EI)
5. Zhang, Z. J., Wang, C., Tang, Y. X., Zhang H., “Qinghai-Tibet railway thermal dilation monitoring using SAR interferometry, ” APSAR2015,(EI)
6. Zhang, Z. J., Wang, C., Tang, Y. X., Zhang H., “Surface Deformation Monitoring using Time series TerraSAR-X Images over Permafrost of Qinghai-Tibet Plateau, China” Geoscience and Remote Sensing Symposium (IGARSS), 2016 IEEE International. (EI)
7. Zhang Z. J., Tang Y, Zhang H, et al. “Subsidence monitoring in coal area using time-series InSAR combining persistent scatterers and distributed scatterers”, Geoscience and Remote Sensing Symposium (IGARSS), 2014 IEEE International. IEEE, 2014: 433-436. (EI)
8. Zhang, Z. J., Tang, Y. X., Wang, C., Zhang, H. “Deformation Mapping for Coal Mining using Time-series InSAR Combining Persistent Scatterers and Distributed Scatterers in Huainan City, China.” Proceedings of FRINGE, Frascati, Italy, 2015.
9. Zhang, Z. J., Wang, C., Tang, Y. X., Zhang, H., Xu L., “Analysis of coherence seasonal variation in Qinghai-Tibet Permafrost- A case study in Beiluhe area”, Proceedings of FRINGE,2017.
10. 张正加,汤益先,王超,张红, 基于SRTM和TanDEM-X数据的汶川震后滑坡分析-以大光包为例,第七届海峡两岸遥感遥测研讨会,2014.
11. Chao W, Zhang Z, Tang Y, et al. A fast InSAR processing system based on Digital Signal Processor[C]//Earth Observation and Remote Sensing Applications (EORSA), 2016 4th International Workshop on. IEEE, 2016: 83-86.(EI)
12. Wang, C., Zhang, H., Tang, Y., Zhang, Z., Zhang, B., & Zhao, L. (2015, September). Fine permafrost deformation features observed using TerraSAR-X ST mode InSAR in Beiluhe of the Qinghai-Tibet Plateau, West China. In Synthetic Aperture Radar (APSAR), 2015 IEEE 5th Asia-Pacific Conference on (pp. 320-324). IEEE.
13. Wang T, Zhang Z, Zhang H, et al. Monitoring of mining-induced subsidence lakes by Radarsat-2 SAR images in Huainan, Eastern China[C]//Synthetic Aperture Radar (APSAR), 2015 IEEE 5th Asia-Pacific Conference on. IEEE, 2015: 654-657.
14. Wang C, Zhang Z, Zhang H, et al. Multi-temporal InSAR analysis of Wenjiagou landslide using distributed scatterers[C]//Proceedings of FRINGE. 2015.
15. Wang, C., Zhang, H., Zhang, B., Tang, Y., Zhang, Z., Liu, M., & Zhao, L. (2015, July). New mode TerraSAR-X interferometry for railway monitoring in the permafrost region of the Tibet Plateau. In Geoscience and Remote Sensing Symposium (IGARSS), 2015 IEEE International (pp. 1634-1637). IEEE.
16. Wang, C., Zhang, H., Wu, Q., Zhang, Z., & Xie, L. (2016, July). Monitoring permafrost soil moisture with multi-temporal TERRASAR-X data in northern tibet. In Geoscience and Remote Sensing Symposium (IGARSS), 2016 IEEE International (pp. 3039-3042). IEEE.
专著/教材
1 王超,张正加,汤益先,张红, "青藏高原冻土环境与工程雷达遥感研究",2020.3,科学出版社.
1. 刘修国,陈启浩,史绪国,解清华,张正加,周超. 微波遥感实习教程,中国地质大学出版社,2022
2. 张正加,朱真冰,范鹏等. 输电线路地质灾害雷达干涉监测技术,中国电力出版社,预计2025年出版.
3. 岳林蔚,张正加,田玉刚等. 遥感原理与应用线上下混合式实践教程,中国地质大学出版社,预计2025年出版.
行业标准、授权专利
1. 作为主要完成人(排名第5)参编电力行业标准“输变电工程星载合成孔径雷达地面沉降监测技术规程” DL/T 2626-2023
2. 张正加,林洪,刘修国,王猛猛,陈启浩. 结合动态形变和静态指数的冻土融沉风险评估方法及装置, 2025-2-18, 中国,ZL 20221 0654753.9 (专利)
3. 张正加,吴尧,王猛猛,刘修国. 基于多平台时序InSAR的数据融合及冻融监测方法及装置,2024-4-16, 中国,ZL202210808189.1(专利)
4. 张正加,姜修成,刘修国,陈启浩,王猛猛. 联合PS目标和DS目标的双极化相位优化地表形变监测方法, 2022-9-23,中国,ZL202110507977.2(专利)
5. 张正加,姜修成,王猛猛,刘修国,陈启浩. 一种基于PS目标时空间相干矩阵的极化相位优化方法,2022-6-21,中国,ZL202110360335.4(专利)
6. 江威, 庞治国,吕娟,张正加,宋文龙,靳庆光,张朋杰,孙铭涵. 基于InSAR和深度学习的大坝形变监测及预测方法,2023-4-7,中国,ZL202210574487.9(专利)
7. 陈启浩,王仁政,刘修国,张正加. 基于叠掩信息的SAR图像多类型建筑物高度估计方法,2022-9-30,中国,ZL202110069225.2(专利)
科研项目
1. 主持,一般横向项目,综合广域InSAR和CR增强技术的黑龙江冻融区输电线路不稳定沉降监测技术研究及应用,2024.4-2025.12
2. 主持,一般横向项目,杆塔三维点云数据模型加工,2024.9-2024.12
3. 主持,一般横向项目,遥感SAR数据散射信号提取与形变分析,2024.8-2024.12
4. 主持, 一般横向项目,“D-InSAR数据不均匀沉降处理分析及沉降展示研究”,2020.08-2020.11
5. 主持, 国家自然科学基金面上项目子课题,“基于时空联合学习模型的SAR作物分类与产量预估方法研究”,2020.01-2023.12
6. 主持, 国家自然科学基金青年基金,“面向青藏高原复杂冻土环境的时序InSAR冻土活动层厚度反演研究”,2019.01-2021.12
7. 主持, 实验室开放基金,“联合PS-DS高分辨率SAR青藏高原铁路工程形变监测研究”,2018.01-2019.12
8. 主持, 中国地质大学(武汉)中央高校基本科研业务费专项资助,“基于高分辨率SAR数据的青藏高原多年冻土区铁路形变监测研究”,2018.01-2020.12
9 核心骨干参与,国家自然科学基金重点基金“高分辨率SAR散射机理与应用关键科学问题研究”,2014.01-2018.12
10 核心骨干参与,国家自然科学基金面上项目,“基于分布目标的高分辨率SAR北川震后滑坡监测”,2012.01-2016.12
11 核心骨干参与,卫星应用综合信息集成服务平台及示范应用建设——淮南市InSAR地面沉降监测技术服务”
指导硕士研究生
2019级研究生: 姜修成(已毕业,发表SCI论文1篇,EI论文1篇)
2020级研究生: 林洪(已毕业,发表SCI论文1篇,投稿论文1篇),吴尧(已毕业,发表SCI论文2篇),王庆祥(已毕业,发表SCI论文2篇)
2021级研究生: 靳庆光(已毕业,发表SCI论文1篇),张兆丰(已毕业)
2022级研究生: 郭靖(已毕业,发表SCI论文2篇),冯晓帆(已毕业,发表SCI论文1篇)
2023级研究生: 方宇,张绍阳
指导本科生科研项目
1. 2022年立项,“综合遥感技术的北极圈冻土碳含量估计研究”,负责人:倪宸睿(保研至北大),国家级,项目经费:10000元,优秀结题.
2. 2023年立项,“电网广域火情监测与态势感知平台”,负责人:刘一凡(保研至空天院),省级,项目经费:5000元.
3. 2023年立项,“基于多源遥感数据的青藏高原 湖泊水储量估算及不确定分析研究”,负责人:杨敏洁(保研至北师大).
3. 2024年立项, “基于多源遥感数据的青藏高原热融滑塌监测”,负责人:张磊,国家级,项目经费:10000元,优秀结题.
4. 2024年立项,“基于LIDAR和物理模型的地震滑坡灾害下输电杆塔损伤性分析”,负责人:喻玲,省级,项目经费:5000元.
5. 2025年立项,“基于深度学习的青藏高原多年冻土区碳含量估计及预测”,项目负责人:于佳丽,省级,项目经费:5000元.
指导学生比赛获奖荣誉
1 2024年,指导学生参加2024易智瑞GIS开发竞赛,遥感应用组二等奖;
2 2024年,指导学生参加全国测绘技能大赛,科技论文比赛二等奖;
3 2023年,指导学生参加第六届航天宏图&华为云杯PIE系统开发大赛,云开发组二等奖,并获优秀指导老师;
4 2023年,指导学生参加2023易智瑞GIS开发竞赛,遥感应用组二等奖;
5 2022年度“创新创业教育”优秀指导老师
6 2022年 指导学生参加第四届“航天宏图杯”PIE遥感图像处理软件二次开发大赛云开发组一等奖
7 2021年度“创新创业教育”优秀指导老师
8 2021年 指导学生参加第四届“航天宏图杯”PIE遥感图像处理软件二次开发大赛云开发组唯一特等奖,并获优秀指导老师
9 2020年度“创新创业教育”优秀指导老师
10 2020年,指导学生参加第三届“航天宏图杯”PIE遥感图像处理软件二次开发大赛唯一特等奖,并获优秀指导老师
11 2019年,指导学生参加中国大学生GIS软件开发遥感应用组唯一特等奖
联系方式
地址:湖北省武汉东湖新技术开发区锦程街68号地信楼651室, 430078
- 2012.9 -- 2017.6中国科学院大学
遥感与数字地球研究所 - 2008.9 -- 2012.6合肥工业大学
- 2017.7 -- Now中国地质大学(武汉) , 信息工程学院
合成孔径雷达干涉测量
Copyright © China University of Geosciences, Wuhan