分享杨莹辉教授 / 硕士生导师 扫一扫在手机打开此页面所在单位：环境与土木工程学院，地质工程（工程地质） 研究领域：地震地质灾害监测与反演 职????务： 13540769501xzhfhyyy@126.com个人简介 Introduction发表论文 Paper Publications科技奖励 Science&Tech Awards发明专利 Patents 基本信息 Introduction杨莹辉，男，摄影测量遥感专业，工学博士，教授/硕导。主要从事震源机制反演、断层活动与破裂风险评估、卫星雷达遥感、滑坡灾害识别、反演与预警研究。2017年4月至2018年3月赴台湾大学开展为期一年的博士后研究，2014年9月赴法国巴黎中央理工大学、德国慕尼黑工业大学进行学术交流访问。先后主持/主研多项国家自然科学基金、国际合作项目、省部级项目以及相关横向课题。主要学术贡献包括：提出了基于大地测量数据的产状断层几何反演理论，论证了地形起伏对断层运动模型反演精度的影响，发展了联合多源观测的同震破裂模型反演算法。以评审专家身份参与四川省遥感地质灾害详查，并参与我国川藏铁路沿线地质灾害评估等相关工作。 近年来，依托相关研究课题，以第一作者身份在 “Geophysical Research Letters，GRL”，“Journal of Geodesy, JG”，“Seismological Research Letters，SRL”等国际顶级学术期刊发表多篇高水平学术论文，申请发明专利和实用新型专利2项，并获得四川省测绘地理信息学会特等奖。 荣誉称号 Academic Awards and Honors 工作经历 Work Experience2015.07- 2020.11至今， 西南石油大学， 讲师 2017.12- 2020.11至今， 西南石油大学， 副研究员 2020.12- 2021.12至今， 成都理工大学， 教授 个人新闻更多友情链接更多教育经历Education Background 2006.09-2010.06，中南林业科技大学，测绘工程，本科 2010.09-2015.06，西南交通大学，摄影测量与遥感，博士研究生 2017.04-2018.03，台湾大学，地质科学，博士后 发表论文Paper Publications[1]. Ying-Hui Yang, Jyr-Ching Hu, Qiang Chen, Xinglin Lei, Jingjing Zhao, Weile Li, Rui Xu, Chun-Ying Chiu.Shallow slip of blind fault associated with the 2019 Ms 6.0 Changning earthquake in fold-and-thrust belt in salt mines of Southeast Sichuan, China,Geophysical Journal International, 2021 ,1 (224):909-922 ( SCI收录; )[2]. Ying-Hui Yang, Jyr-Ching Hu, Qiang Chen, et al..A Blind Thrust and Overlying Folding Earthquake of the 2016 Mw 6.0 Hutubi Earthquake in the Northern Tien Shan Fold-and-Thrust Belts, China,Bulletin of the Seismological Society of America, 2019 ,2 (109):770-779 ( SCI收录; )[3]. Ying-Hui Yang, Qiang Chen, Qian Xu, Guoxiang Liu, Jyr Ching Hu.Source model and Coulomb stress change of the 2015 Mw 7.8 Gorkha earthquake determined from improved inversion of geodetic surface deformation observations,Journal of Geodesy, 2019 ,3 (93):333-351 ( SCI收录; )[4]. Ying-Hui Yang; Tsai Min Chien; Jyr-Ching Hu; Aurelio Mario A; Hashimoto Manabu; Escudero John Agustin P; Su Zhe; Chen Qiang.Coseismic Slip Deficit of the 2017 Mw 6.5 Ormoc Earthquake That Occurred Along a Creeping Segment and Geothermal Field of the Philippine Fault,Geophysical Research Letters, 2018 ,6 (45):2659-2668 ( SCI收录; )[5]. Ying-Hui Yang, Jyr‐Ching Hu, Ali Yassaghi, Min‐Chien Tsai, Mehdi Zare, Qiang Chen, Ze‐Gen Wang.Midcrustal Thrusting and Vertical Deformation Partitioning Constraint by 2017 Mw 7.3 Sarpol Zahab Earthquake in Zagros Mountain Belt, Iran,Seismological Research Letters, 2018 ,6 (89):2204-2213 ( SCI收录; )[6]. Ying-Hui Yang, Jyr-Ching Hu, Hsin Tung, et al..Co-Seismic and Postseismic Fault Models of the 2018 Mw 6.4 Hualien Earthquake Occurred in the Junction of Collision and Subduction Boundaries Offshore Eastern Taiwan,Remote Sensing, 2018 ,9 (10):1372 ( SCI收录; )[7]. Ying-Hui Yang, Qiang Chen, Qian Xu, Yijun Zhang, Qi Yong, Guoxiang Liu. Coseismic surface deformation of the 2014 Napa earthquake mapped by Sentinel-1A SAR and accuracy assessment with COSMO-SkyMed and GPS data as cross validation,International Journal of Digital Earth, 2017 ,12 (10):1197-1213 ( SCI收录; )[8]. 杨莹辉, 陈强, 徐倩, 张一君, 罗容, 胡植庆, 刘囯祥, 王泽根, 王继燕.汶川地震SAR形变场电离层影响校正与断层地表破裂线自动提取,地球物理学报, 2017 ,8 (60):2948-2958 ( SCI收录; )[9]. Qiang chen, Ying-Hui Yang, Guoxiang Liu, Rong Luo.Deep coseismic slip of the 2008 Wenchuan earthquake inferred from joint inversion of fault stress changes and GPS surface displacements,Journal of Geodynamics, 2015 ,1 (87):1-12 ( SCI收录; )[10]. 陈强, 罗容, 杨莹辉, 雍 琦.利用SAR影像配准偏移量提取地表形变的方法与误差分析,测绘学报, 2015 ,3 (44):301-308 ( EI收录; )[11]. 杨莹辉, 陈强, 刘国祥, 程海琴, 刘丽瑶, 胡植庆.汶川地震同震形变场的GPS和 InSAR邻轨平滑校正与断层滑移精化反演,地球物理学报, 2014 ,5 (57):1462-1476 ( SCI收录; )[12]. Chen Qiang, Cheng Haiqin, Ying-Hui Yang, Liu Guoxiang, Liu Liyao. Quantification of mass wasting volume associated with the giant landslide Daguangbao induced by the 2008 Wenchuan earthquake from persistent scatterer InSAR,Remote Sensing of Environment, 2014 ,1 (152):125-135 ( SCI收录; )[13]. Ying-Hui Yang, Chen Qiang, Liu Guoxiang, Li Zhilin, Cheng Haiqin, Liu Liyao.SAR image coregistration using fringe definition detection,Journal of Mountain Science, 2013 ,5 (10):790-800 ( SCI收录; )[14]. 陈强, 杨莹辉, 刘国祥, 程海琴, 刘伟堂.基于边界探测的InSAR最小二乘整周相位解缠方法,测绘学报, 2012 ,3 (41):441-448 ( EI收录; )1[1]. Shallow slip of blind fault associated with the 2019 Ms 6.0 Changning earthquake in fold-and-thrust belt in salt mines of Southeast Sichuan, China.. 2021. [2]. A Blind Thrust and Overlying Folding Earthquake of the 2016 Mw 6.0 Hutubi Earthquake in the Northern Tien Shan Fold-and-Thrust Belts, China.. 2019. [3]. Source model and Coulomb stress change of the 2015 Mw 7.8 Gorkha earthquake determined from improved inversion of geodetic surface deformation observations.. 2019. [4]. Coseismic Slip Deficit of the 2017 Mw 6.5 Ormoc Earthquake That Occurred Along a Creeping Segment and Geothermal Field of the Philippine Fault.. 2018. [5]. Midcrustal Thrusting and Vertical Deformation Partitioning Constraint by 2017 Mw 7.3 Sarpol Zahab Earthquake in Zagros Mountain Belt, Iran.. 2018. [6]. Co-Seismic and Postseismic Fault Models of the 2018 Mw 6.4 Hualien Earthquake Occurred in the Junction of Collision and Subduction Boundaries Offshore Eastern Taiwan.. 2018. [7]. Coseismic surface deformation of the 2014 Napa earthquake mapped by Sentinel-1A SAR and accuracy assessment with COSMO-SkyMed and GPS data as cross validation.. 2017. [8]. 汶川地震SAR形变场电离层影响校正与断层地表破裂线自动提取.. 2017. [9]. Deep coseismic slip of the 2008 Wenchuan earthquake inferred from joint inversion of fault stress changes and GPS surface displacements.. 2015. [10]. 利用SAR影像配准偏移量提取地表形变的方法与误差分析.. 2015. [11]. 汶川地震同震形变场的GPS和 InSAR邻轨平滑校正与断层滑移精化反演.. 2014. [12]. Quantification of mass wasting volume associated with the giant landslide Daguangbao induced by the 2008 Wenchuan earthquake from persistent scatterer InSAR.. 2014. [13]. SAR image coregistration using fringe definition detection.. 2013. [14]. 基于边界探测的InSAR最小二乘整周相位解缠方法.. 2012. 1[1]. Ying-Hui Yang, Jyr-Ching Hu, Qiang Chen, Xinglin Lei, Jingjing Zhao, Weile Li, Rui Xu, Chun-Ying Chiu. Shallow slip of blind fault associated with the 2019 Ms 6.0 Changning earthquake in fold-and-thrust belt in salt mines of Southeast Sichuan, China.:, 2021 [2]. Ying-Hui Yang, Jyr-Ching Hu, Qiang Chen, et al.. A Blind Thrust and Overlying Folding Earthquake of the 2016 Mw 6.0 Hutubi Earthquake in the Northern Tien Shan Fold-and-Thrust Belts, China.:, 2019 [3]. Ying-Hui Yang, Qiang Chen, Qian Xu, Guoxiang Liu, Jyr Ching Hu. Source model and Coulomb stress change of the 2015 Mw 7.8 Gorkha earthquake determined from improved inversion of geodetic surface deformation observations.:, 2019 [4]. Ying-Hui Yang; Tsai Min Chien; Jyr-Ching Hu; Aurelio Mario A; Hashimoto Manabu; Escudero John Agustin P; Su Zhe; Chen Qiang. Coseismic Slip Deficit of the 2017 Mw 6.5 Ormoc Earthquake That Occurred Along a Creeping Segment and Geothermal Field of the Philippine Fault.:, 2018 [5]. Ying-Hui Yang, Jyr‐Ching Hu, Ali Yassaghi, Min‐Chien Tsai, Mehdi Zare, Qiang Chen, Ze‐Gen Wang. Midcrustal Thrusting and Vertical Deformation Partitioning Constraint by 2017 Mw 7.3 Sarpol Zahab Earthquake in Zagros Mountain Belt, Iran.:, 2018 [6]. Ying-Hui Yang, Jyr-Ching Hu, Hsin Tung, et al.. Co-Seismic and Postseismic Fault Models of the 2018 Mw 6.4 Hualien Earthquake Occurred in the Junction of Collision and Subduction Boundaries Offshore Eastern Taiwan.:, 2018 [7]. Ying-Hui Yang, Qiang Chen, Qian Xu, Yijun Zhang, Qi Yong, Guoxiang Liu. Coseismic surface deformation of the 2014 Napa earthquake mapped by Sentinel-1A SAR and accuracy assessment with COSMO-SkyMed and GPS data as cross validation.:, 2017 [8]. 杨莹辉, 陈强, 徐倩, 张一君, 罗容, 胡植庆, 刘囯祥, 王泽根, 王继燕. 汶川地震SAR形变场电离层影响校正与断层地表破裂线自动提取.:, 2017 [9]. Qiang chen, Ying-Hui Yang, Guoxiang Liu, Rong Luo. Deep coseismic slip of the 2008 Wenchuan earthquake inferred from joint inversion of fault stress changes and GPS surface displacements.:, 2015 [10]. 陈强, 罗容, 杨莹辉, 雍 琦. 利用SAR影像配准偏移量提取地表形变的方法与误差分析.:, 2015 [11]. 杨莹辉, 陈强, 刘国祥, 程海琴, 刘丽瑶, 胡植庆. 汶川地震同震形变场的GPS和 InSAR邻轨平滑校正与断层滑移精化反演.:, 2014 [12]. Chen Qiang, Cheng Haiqin, Ying-Hui Yang, Liu Guoxiang, Liu Liyao. Quantification of mass wasting volume associated with the giant landslide Daguangbao induced by the 2008 Wenchuan earthquake from persistent scatterer InSAR.:, 2014 [13]. Ying-Hui Yang, Chen Qiang, Liu Guoxiang, Li Zhilin, Cheng Haiqin, Liu Liyao. SAR image coregistration using fringe definition detection.:, 2013 [14]. 陈强, 杨莹辉, 刘国祥, 程海琴, 刘伟堂. 基于边界探测的InSAR最小二乘整周相位解缠方法.:, 2012 [1]. . Shallow slip of blind fault associated with the 2019 Ms 6.0 Changning earthquake in fold-and-thrust belt in salt mines of Southeast Sichuan, China. . , 2021.09.13 [2]. . A Blind Thrust and Overlying Folding Earthquake of the 2016 Mw 6.0 Hutubi Earthquake in the Northern Tien Shan Fold-and-Thrust Belts, China. . , 2021.09.13 [3]. . Source model and Coulomb stress change of the 2015 Mw 7.8 Gorkha earthquake determined from improved inversion of geodetic surface deformation observations. . , 2021.09.13 [4]. . Coseismic Slip Deficit of the 2017 Mw 6.5 Ormoc Earthquake That Occurred Along a Creeping Segment and Geothermal Field of the Philippine Fault. . , 2021.09.13 [5]. . Midcrustal Thrusting and Vertical Deformation Partitioning Constraint by 2017 Mw 7.3 Sarpol Zahab Earthquake in Zagros Mountain Belt, Iran. . , 2021.09.13 [6]. . Co-Seismic and Postseismic Fault Models of the 2018 Mw 6.4 Hualien Earthquake Occurred in the Junction of Collision and Subduction Boundaries Offshore Eastern Taiwan. . , 2021.09.13 [7]. . Coseismic surface deformation of the 2014 Napa earthquake mapped by Sentinel-1A SAR and accuracy assessment with COSMO-SkyMed and GPS data as cross validation. . , 2021.09.13 [8]. . 汶川地震SAR形变场电离层影响校正与断层地表破裂线自动提取. . , 2021.09.13 [9]. . Deep coseismic slip of the 2008 Wenchuan earthquake inferred from joint inversion of fault stress changes and GPS surface displacements. . , 2021.09.13 [10]. . 利用SAR影像配准偏移量提取地表形变的方法与误差分析. . , 2021.09.13 [11]. . 汶川地震同震形变场的GPS和 InSAR邻轨平滑校正与断层滑移精化反演. . , 2021.09.13 [12]. . Quantification of mass wasting volume associated with the giant landslide Daguangbao induced by the 2008 Wenchuan earthquake from persistent scatterer InSAR. . , 2021.09.13 [13]. . SAR image coregistration using fringe definition detection. . , 2021.09.13 [14]. . 基于边界探测的InSAR最小二乘整周相位解缠方法. . , 2021.09.13 1[1] .. Shallow slip of blind fault associated with the 2019 Ms 6.0 Changning earthquake in fold-and-thrust belt in salt mines of Southeast Sichuan, China.,2021.09.13 [2] .. A Blind Thrust and Overlying Folding Earthquake of the 2016 Mw 6.0 Hutubi Earthquake in the Northern Tien Shan Fold-and-Thrust Belts, China.,2021.09.13 [3] .. Source model and Coulomb stress change of the 2015 Mw 7.8 Gorkha earthquake determined from improved inversion of geodetic surface deformation observations.,2021.09.13 [4] .. Coseismic Slip Deficit of the 2017 Mw 6.5 Ormoc Earthquake That Occurred Along a Creeping Segment and Geothermal Field of the Philippine Fault.,2021.09.13 [5] .. Midcrustal Thrusting and Vertical Deformation Partitioning Constraint by 2017 Mw 7.3 Sarpol Zahab Earthquake in Zagros Mountain Belt, Iran.,2021.09.13 [6] .. Co-Seismic and Postseismic Fault Models of the 2018 Mw 6.4 Hualien Earthquake Occurred in the Junction of Collision and Subduction Boundaries Offshore Eastern Taiwan.,2021.09.13 [7] .. Coseismic surface deformation of the 2014 Napa earthquake mapped by Sentinel-1A SAR and accuracy assessment with COSMO-SkyMed and GPS data as cross validation.,2021.09.13 [8] .. 汶川地震SAR形变场电离层影响校正与断层地表破裂线自动提取.,2021.09.13 [9] .. Deep coseismic slip of the 2008 Wenchuan earthquake inferred from joint inversion of fault stress changes and GPS surface displacements.,2021.09.13 [10] .. 利用SAR影像配准偏移量提取地表形变的方法与误差分析.,2021.09.13 [11] .. 汶川地震同震形变场的GPS和 InSAR邻轨平滑校正与断层滑移精化反演.,2021.09.13 [12] .. Quantification of mass wasting volume associated with the giant landslide Daguangbao induced by the 2008 Wenchuan earthquake from persistent scatterer InSAR.,2021.09.13 [13] .. SAR image coregistration using fringe definition detection.,2021.09.13 [14] .. 基于边界探测的InSAR最小二乘整周相位解缠方法.,2021.09.13 [1]. Shallow slip of blind fault associated with the 2019 Ms 6.0 Changning earthquake in fold-and-thrust belt in salt mines of Southeast Sichuan, China.:2021.09 - 2021.09 [2]. A Blind Thrust and Overlying Folding Earthquake of the 2016 Mw 6.0 Hutubi Earthquake in the Northern Tien Shan Fold-and-Thrust Belts, China.:2021.09 - 2021.09 [3]. Source model and Coulomb stress change of the 2015 Mw 7.8 Gorkha earthquake determined from improved inversion of geodetic surface deformation observations.:2021.09 - 2021.09 [4]. Coseismic Slip Deficit of the 2017 Mw 6.5 Ormoc Earthquake That Occurred Along a Creeping Segment and Geothermal Field of the Philippine Fault.:2021.09 - 2021.09 [5]. Midcrustal Thrusting and Vertical Deformation Partitioning Constraint by 2017 Mw 7.3 Sarpol Zahab Earthquake in Zagros Mountain Belt, Iran.:2021.09 - 2021.09 [6]. Co-Seismic and Postseismic Fault Models of the 2018 Mw 6.4 Hualien Earthquake Occurred in the Junction of Collision and Subduction Boundaries Offshore Eastern Taiwan.:2021.09 - 2021.09 [7]. Coseismic surface deformation of the 2014 Napa earthquake mapped by Sentinel-1A SAR and accuracy assessment with COSMO-SkyMed and GPS data as cross validation.:2021.09 - 2021.09 [8]. 汶川地震SAR形变场电离层影响校正与断层地表破裂线自动提取.:2021.09 - 2021.09 [9]. Deep coseismic slip of the 2008 Wenchuan earthquake inferred from joint inversion of fault stress changes and GPS surface displacements.:2021.09 - 2021.09 [10]. 利用SAR影像配准偏移量提取地表形变的方法与误差分析.:2021.09 - 2021.09 [11]. 汶川地震同震形变场的GPS和 InSAR邻轨平滑校正与断层滑移精化反演.:2021.09 - 2021.09 [12]. Quantification of mass wasting volume associated with the giant landslide Daguangbao induced by the 2008 Wenchuan earthquake from persistent scatterer InSAR.:2021.09 - 2021.09 [13]. SAR image coregistration using fringe definition detection.:2021.09 - 2021.09 [14]. 基于边界探测的InSAR最小二乘整周相位解缠方法.:2021.09 - 2021.09 出版专著Published Books111科技奖励Science&Tech Awards[1]. .基于国产高分遥感影像的地理国情监测信息提取关键技术,, 2019 , : ()1[1]. 基于国产高分遥感影像的地理国情监测信息提取关键技术.李亮, 王泽根, 李国明, 李胜, 杨莹辉, 薛鹏, 何鑫, 王继燕, 陈丹蕾, 申学林, 应国伟. 2019. 科技进步奖 特等奖 1[1]. . 基于国产高分遥感影像的地理国情监测信息提取关键技术.:, 2019 [1]. . 基于国产高分遥感影像的地理国情监测信息提取关键技术. 科技进步奖. , 2021.09.13 1[1] .. 基于国产高分遥感影像的地理国情监测信息提取关键技术.,2021.09.13 [1]. 基于国产高分遥感影像的地理国情监测信息提取关键技术.:2021.09 - 2021.09 发明专利Patents[1]. .一种铁路轨道平顺性检测的车载近景摄影测量方法,, 2013 , : ()[2]. .铁路轨道平顺性检测的车载近景摄影测量装置,, 2013 , : ()[3]. .铁路轨道平顺性检测的车载近景摄影测量装置,, 2013 , : ()1[1]. 一种铁路轨道平顺性检测的车载近景摄影测量方法.. 2013. 发明专利 [2]. 铁路轨道平顺性检测的车载近景摄影测量装置.. 2013. 实用新型专利 [3]. 铁路轨道平顺性检测的车载近景摄影测量装置.. 2013. 实用新型专利 1[1]. . 一种铁路轨道平顺性检测的车载近景摄影测量方法.:, 2013 [2]. . 铁路轨道平顺性检测的车载近景摄影测量装置.:, 2013 [3]. . 铁路轨道平顺性检测的车载近景摄影测量装置.:, 2013 [1]. 陈强, 刘丽瑶, 刘成龙, 佘毅, 杨莹辉, 郭良浩, 王鹏. 一种铁路轨道平顺性检测的车载近景摄影测量方法. 发明专利. ZL 2013 1 0544461.0, 2016.06.29 [2]. 陈强, 刘丽瑶, 刘成龙, 郭良浩, 王鹏, 杨莹辉, 佘毅. 铁路轨道平顺性检测的车载近景摄影测量装置. 实用新型专利. ZL 2013 2 0696431.7, 2014.05.28 [3]. 陈强, 刘丽瑶, 刘成龙, 郭良浩, 王鹏, 杨莹辉, 佘毅. 铁路轨道平顺性检测的车载近景摄影测量装置. 实用新型专利. ZL 2013 2 0696431.7, 2014.05.28 1[1] .. 一种铁路轨道平顺性检测的车载近景摄影测量方法.,2016.06.29 [2] .. 铁路轨道平顺性检测的车载近景摄影测量装置.,2014.05.28 [3] .. 铁路轨道平顺性检测的车载近景摄影测量装置.,2014.05.28 [1]. 一种铁路轨道平顺性检测的车载近景摄影测量方法.:2021.09 - 2021.09 [2]. 铁路轨道平顺性检测的车载近景摄影测量装置.:2021.09 - 2021.09 [3]. 铁路轨道平顺性检测的车载近景摄影测量装置.:2021.09 - 2021.09 软件著作权Software Copyrights111科研项目Research Projects111相关资源均是用户自行上传分享，仅供学术交流之用?2019 环境与土木工程学院地质灾害防治与地质环境保护国家重点实验室技术支持：应子科技（成都）有限公司