»姓名:曲英铭 | »系属:地球物理系 | |
»学位:博士 | »职称:教授 | |
»专业:地球物理学、地质资源与地质工程 | »导师类别:博士生导师 | |
»通讯地址:中国石油大学(华东)工科楼C641 | ||
»概况:曲英铭,教授,博士生导师,山东莱阳人,中共党员。中国科协青年托举人才、山东省泰山青年学者、青岛西海岸新区优秀青年人才、中国石油大学(华东)优秀青年人才引进计划成员。 | ||
◎研究方向 ◇油气地球物理;计算地球物理;海洋地球物理;地震波传播与成像。 ◇深地与深海;人工智能;天然气水合物、页岩气等成像;服务国家能源战略。
◎教育经历 ◇2014-2018,中国石油大学(华东),地球科学与技术学院,地球物理系,硕博连读,博士学位,导师:李振春教授 ◇2016-2017,美国莱斯大学,地球科学系,导师:Alan Levander教授 ◇2012-2014,中国石油大学(华东),地球科学与技术学院,地球物理系,硕士华亿体育学历,导师:李振春教授 ◇2008-2012,中国石油大学(华东),地球资源与信息学院,地球物理系,本科学历,学士学位
◎工作经历 ◇2022.12至今,中国石油大学(华东),地球物理系,教授,博士生导师 ◇2020.09—2022.11,中国石油大学(华东),地球物理系,副教授,博士生导师 ◇2018.07—2020.08,中国石油大学(华东),地球物理系,副教授,硕士生导师
◎学术兼职 ◇《Journal of Applied Geophysics》副主编 ◇《Exploration Geophysics》副主编 ◇《Applied Geophysics》编委 ◇《Petroleum Science》、《China Daily》、《Journal of Geophysics and Engineering》、《石油物探》、《东北石油大学学报》等杂志青年编委 ◇国家自然科学基金委评审专家、国家留学基金委评审专家 ◇山东省国家知识产权保护中心知识产权保护人才专家 ◇河南省地质物探工程技术研究中心学术委员 ◇海洋石油勘探国家工程实验室 ◇中国石油大学华亿体育指导委员会委员 ◇教育部学位专家 ◇青岛市科协科普专家 ◇SEG、EAGE会员,中国地球物理学会终身会员 ◇担任 Geophysics、IEEE TGRS、Petroleum Science、GJI、JAG、EG、JGE、AG等杂志、SEG、EAGE会议、《地球物理学报》、《石油地球物理勘探》和《石油物探》等国内外著名期刊的学术论文审稿工作。
◎主讲课程 ◇本科生课程:《程序设计Fortran语言》、《信号分析与处理》、《程序设计Python语言》、《地震资料数字处理方法》 ◇华亿体育课程:《计算地球物理学》、华亿体育精品课《地震处理与成像》
◎指导华亿体育 共指导博士生、硕士生及“三进”计划本科生30余人,5人获国家奖学金、推荐3人出国留学,35人次获省级以上奖励,多人获得省优秀学生、校科技之星、孙越崎优秀学生奖、王涛英才奖学金等荣誉。
◎承担项目 [1] 油气地球物理,中国科协青年托举工程项目,主持 [2] 山东省泰山学者项目,主持 [3] 面向地质目标的黏弹各向异性最小二乘逆时偏移,国家自然基金面上项目,主持 [4] 崎岖海底界面环境的声-黏弹耦合介质成像,国家自然基金青年项目,主持 [5] 复杂海洋环境天然气水合物储层的多参数地震反演成像,山东省自然基金,主持 [6] 复杂油气藏地震成像, 卓越青年人才专项,主持 [7] 面向山前带低信噪比数据的黏声最小二乘逆时偏移,中央高校基本科研业务费专项资金,主持 [8] 黏介质起伏地表反演成像方法,中国石油大学人才引进经费,主持 [9] 声-黏弹耦合介质多分量最小二乘逆时偏移,海洋石油勘探国家工程实验室开放基金课题,主持 [10] 黏介质起伏地表正演模拟与反演成像方法研究,中国石化地球物理重点实验室开放基金,主持 [11] 沙漠区可控震源采集“黑三角”噪音机理与组合压制研究,中国石化地球物理重点实验室开放基金,主持 [12] 沙漠区可控震源特殊噪音形成机理与压制技术研究,中国石化地球物理重点实验室开放基金,主持 [13] 黏弹各向异性介质多参数最小二乘逆时偏移,中国石化地球物理重点实验室开放基金,主持 [14] 双复杂条件下的多参数全波形反演研究,中央高校基本科研业务费专项资金,主持 [15] 双复杂构造正演模拟及混叠数据反演成像方法研究,中央高校基本科研业务费专项资金,主持 [16] 三维黏性双相介质有限差分正演模拟与波场分离,中国石化地球物理重点实验室开放基金,主持 [17] 复杂地表条件下海相储层地震波场模拟及观测系统优化,中石化石油工程与地球物理公司,主持 [18] 可控震源“黑三角”噪音形成机理及压制方法,中石化石油工程与地球物理公司委托项目,主持 [19] 深层复杂碳酸盐岩速度建模及偏移方法研究,中国石油天然气股份有限公司西南油气田分公司勘探开发研究院,主持 [20] 复杂近地表可控震源激发波场数值模拟,中石化石油工程与地球物理公司委托项目,主持 [21] 高精度地震数据智能处理与综合解释软件研发,大型石油工业软件研发与应用项目,专题长 [22] 深度域高精度地震成像与解释技术,中石化“揭榜挂帅”项目,专题长 [23] 面向高陡断层及小尺度缝洞体的黏声各向异性最小二乘逆时偏移方法研究,国家自然基金面上基金,参与 [24] 面向深部储层的时空域自适应高斯束成像理论方法及优化,国家自然基金面上基金,参与 [25] 叠前数据挖掘与储层参数非线性预测,国家自然基金面上基金,参与 [26] 基于微分对策的鲁棒滤波及其在地面微地震监测中的应用,国家自然基金面上基金,参与 [27] 复杂介质粘声多次波最小二乘逆时偏移方法研究,国家自然基金青年基金,参与 [28] 主流深度域成像方法理论剖析与评价体系研究,胜利战略合作课题,第二负责人 [29] 塔里木盆地深层复杂高陡构造与碳酸盐岩储层地震速度建模及成像关键技术研究,中石油战略合作课题,副专题长,课题秘书 [30] OVT 域深度偏移成像方法评价技术,胜利物探院委托项目,第二负责人
◎获奖情况 [1] 面向深部油气储层的高精度地震成像关键技术,山东省科技进步奖. (排名第5) [2] 油气勘探地球物理,刘光鼎地球物理青年科学技术奖. (排名第1,独立) [3] 低品质数据驱动的高精度地震成像技术,地球物理学会科技进步奖. (排名第2) [4] 基于深度学习与信息融合的高精度地震成像关键技术及工业应用,中国石油与化学工业联合会科技进步奖. (排名第3) [5] 深层-超深层地震智能处理与高分辨率反演成像关键技术及规模化应用,中国石油与化学工业联合会科技进步奖.(第5) [6] 超深层窄断背斜带高产井地震储层预测关键技术,中国石油和化工自动化应用协会科技进步奖.(排名第5) [7] 面向深部油气储层的复杂地质体成像关键技术. 山东地学科技创新奖.(排名第1,独立) [8] 超深部油气储层的微弱地震信号正演、成像方法及应用技术. 山东省华亿体育科技创新成果奖一等奖(排名第1,独立) [9] 可控震源特征噪音压制及混叠数据成像研究. 中国地球物理学会优秀博士论文奖. (排名第1,独立) [10] SEG Workshop Best Presentation.(排名第1,独立) [11] 基于时空双变的映射法弹性波正演模拟方法. 第二十九届中国地球物理学术年会优秀论文奖.(排名第1,独立) [12] 双复杂构造地震波正演模拟与成像. 全国油气勘探地球物理学华亿体育论坛三等奖.(排名第1,独立) [13] 基于纵横波解耦的双相介质弹性波逆时偏移. 中国石油学会特等奖. (排名第2)
◎指导学生获奖 指导学生获得“三大赛”、学科竞赛山东省最高奖和国奖15项,代表性如下: ◇“挑战杯”全国大学生课外学术科技作品竞赛,全国一等奖 ◇中国国际“互联网+”大学生创新创业大赛,全国银奖 ◇“挑战杯”全国大学生创业计划竞赛,全国铜奖 ◇“挑战杯”山东省大学生课外学术科技作品竞赛,特等奖 ◇ 山东省“互联网+”大学生创新创业大赛,金奖 ◇ 挑战杯”山东省大学生创业计划竞赛,金奖 ◇“东方杯”全国大学生勘探地球物理大赛,特等奖 ◇ 第三届山东省大学生地球物理知识竞赛地震组,一等奖
◎荣誉称号 ◇中国科协青年托举人才 ◇山东省泰山青年学者 ◇中国地球物理学会刘光鼎奖 ◇西海岸新区优秀青年人才 ◇中国石油大学(华东)优秀青年人才引进计划成员 ◇中国石油大学(华东)卓越青年人才B类专项 ◇“挑战杯”全国大学生课外学术科技作品竞赛优秀指导教师 ◇山东省大学生科技节优秀指导老师 ◇“东方杯”全国大学生勘探地球物理大赛优秀指导教师 ◇“挑战杯”山东省大学生课外学术科技作品竞赛优秀指导教师 ◇山东省优秀创新创业导师 ◇ 中国石油大学(华东)优秀指导教师 ◇ 《Petroleum Science》优秀青年编委 ◇ 德美高科创新创业优秀指导老师 ◇ 中国石油大学优秀青年工作者
◎著作 [1] 曲英铭,李振春,李金丽. 可控震源谐波干扰产生机理与压制方法. 中国石油大学出版社. [2] 曲英铭,李金丽,李振春,刘建勋. 复杂介质与低品质数据最小二乘逆时偏移方法. 中国石油大学出版社 [3] 曲英铭,魏国华,李振春. 起伏地表条件下的地震偏移成像理论与方法. 科学出版社 [4] 孙小东,曲英铭. 地震成像基础. 浙江大学出版社
◎论文 在Geophysics、IEEE TGRS、国内外会议上发表论文136篇,其中以第一作者或通讯作者发表SCI期刊论文38篇,发表EI检索期刊、SEG会议、EAGE会议论文40余篇,部分代表性论文如下: ◇国际顶级SCI论文: [1] Y. Qu*, J. Li, Z. Guan, and Z. Li, 2022, Viscoacoustic reverse time migration of joint primaries and different-order multiples: Geophysics, 85, no. 2, S71-S87. doi: 10.1190/geo2019-0237.1. [2] Y. Qu*, Y. Wang, Z. Li, and C. Liu, 2021, Q least-squares reverse time migration based on the first-order viscoacoustic quasidifferential equations: Geophysics, 86, no. 4, S283-S298. doi: 10.1190/geo2020-0712.1. [3] Y. Qu*, J. Zhu, Z. Chen, C. Huang, Y. Wang, and C. Liu, 2022, Q-compensated least-squares reverse time migration with velocity-anisotropy correction based on the first-order velocity-pressure equations: Geophysics, 87, no. 6, S335-S350. doi: 10.1190/ geo2021-0689.1. [4] Y. Qu*, C. Huang, C. Liu, and Z. Li, 2021, Full-Path Compensated Least-Squares Reverse Time Migration of Joint Primaries and Different-Order Multiples for Deep-Marine Environment: IEEE Transactions on Geoscience and Remote Sensing, 59, no. 8, 7109-7121. doi: 10.1109/TGRS.2020.3024189. [5] Y. Qu*, Z. Li, Z. Guan, C. Liu, and J. Sun, 2021, Topography-Dependent Q-Compensated Least-Squares Reverse Time Migration of Prismatic Waves: IEEE Transactions on Geoscience and Remote Sensing, 60, 5908314. doi: 10.1109/ TGRS.2021.3125830. [6] Y. Qu*, and J. Li, 2019, Q-compensated reverse time migration in viscoacoustic media including surface topography: Geophysics, 84, no. 4, S201-S217. doi: 10.1190/geo 2018-0313.1. [7] Y. Qu*, Z. Guan, J. Li, and Z. Li, 2020, Fluid-solid coupled full-waveform inversion in the curvilinear coordinates for ocean-bottom cable data: Geophysics, 85, no. 3, R113–R133. doi: 10.1190/geo2018-0743.1. [8] Z. Li, and Y. Qu*, 2022, Research progress on seismic imaging technology: Petroleum Science, 19, no. 1, 128-146. doi: 10.1016/ j.petsci.2022.01.015. [9] Y. Qu*, J. Li, Y. Li, and Z. Li, 2023, Joint Acoustic and Decoupled-Elastic Least-Squares Reverse Time Migration for Simultaneously Using Water-Land Dual-Detector Data: IEEE Transactions on Geoscience and Remote Sensing, 61, 5909511. doi: 10. 1109/TGRS.2023.3270930. [10] Y. Wang, C. Huang, and Y. Qu*, 2023, M. Li, and J. Li, Velocity-Adaptive Irregular Point Spread Function Deconvolution Imaging Using X-Shaped Denoising Diffusion Filtering: IEEE Transactions on Geoscience and Remote Sensing, 61, 5916808. doi: 10. 1109/TGRS.2023.3303184. [11] Y. Qu*, J. Ren, C. Huang, Z. Li, Y. Wang, and C. Liu, 2021, 3-D Least-Squares Reverse Time Migration in Curvilinear-τ Domain: IEEE Transactions on Geoscience and Remote Sensing, 60, 5908214. doi: 10.1109/TGRS.2021.3126002. [12] J. Li, Y. Qu*, Y. Li, C. Huang, Z. Li, 2024, Ocean bottom dual-sensor Q-compensated elastic least-squares reverse time migration based on viscoacoustic and separated-viscoelastic coupled equations. Geophysics, 89(3), 1-65. doi: 10.1190/geo2023-0433.1 [13] Y. Qu*, J. Huang, Z. Li, and J. Li, 2017, A hybrid grid method in an auxiliary coordinate system for irregular fluid-solid interface modelling: Geophysical Journal International, 208, no. 3, 1540-1556. doi: 10. 1093/gji/ggw429. [14] Y. Qu*, J. Li, J. Huang, and Z. Li, 2018, Elastic least-squares reverse time migration with velocities and density perturbation: Geophysical Journal International, 212, no. 2, 1033-1056. doi: 10.1093/gji/ggx468. [15] Y. Qu*, Z. Li, J. Huang, J. Li, and Z. Guan, 2017, Elastic full-waveform inversion for surface topography: Geophysics, 82, no. 5, R269-R285, doi: 10.1190/geo2016-0349.1. [16] Y. Qu*, J. Huang, Z. Li, Z. Guan, and J. Li, 2017, Attenuation compensation in anisotropic least-squares reverse time migration: Geophysics, 82, no. 6, S411-S423, doi: 10.1190/geo2016-0677.1. [17] Y. Qu*, Z. Guan and Z. Li, 2019, Topographic elastic least-squares reverse time migration based on vector P- and S-wave equations in the curvilinear coordinates: Geophysical Prospecting, 86, no. 5, 1271-1295, doi: 10.1111/1365-2478.12775. [18] J. Li, Y. Qu*, M. Li, and Z. Li, 2022, Viscoacoustic least-squares reverse-time migration of different-order free-surface multiples: Geophysical Prospecting, 71, no. 1, 29-47. doi: 10.1111/1365-2478.13274. [19] J. Li, J. Zhu, Y. Qu*, Z. Yang, and Z. Li, 2024, Elastic full-waveform inversion based on the double-cross-shaped discrete flux-corrected transport: Geophysical Prospecting, 72, no. 2, 468-483. doi: 10. 1111/1365-2478.13420. [20] J. Li, Bo Ma, Y. Qu*, J. Zhu, and C. Liu, 2024, Steeply dipping structural target oriented viscoacoustic prismatic reverse time migration in frequency domain and its application: Geophysical Prospecting, 72, no. 2, 367- 377. doi: 10.1111/ 1365-2478.13409. [21] Sun, W., Li, Z., Qu, Y., 2022, The 3D conical Radon transform for seismic signal processing. Geophysics, 87(5), V481-V504. ◇国内顶级SCI论文: [22] 曲英铭, 李金丽, 李振春等.最小二乘逆时偏移中黏弹性和各向异性的校正:以渤海湾地区地震数据为例[J]. 地球物理学报, 2019, 62(06): 2203-2216. [23] 曲英铭, 黄建平, 李振春, 李庆洋, 赵金良, 李秀芝, 2015, 分层坐标变换法起伏自由地表弹性波叠前逆时偏移. 地球物理学报, 58(8), 544-560. [24] Qu, Y., Huang, J., Li, Z., Li, J., 2016, Prismatic and full-waveform joint inversion. Applied Geophysics, 13(3), 511-518. [25] Qu, Y., Sun, J., Li, Z., et al., 2019, Forward modeling of ocean bottom cable data and wave-mode separation in fluid–solid elastic media with irregular seabed. Applied Geophysics, 15(3-4), 432–447. [26] Qu, Y., Huang, J., Li, J., 2020, Elastic reverse-time migration in irregular tunnel environment based on polar coordinates. Applied Geophysics, 17(2), 468―476. [27] Qu, Y., Huang, C., Liu C., Zhou C., Li, Z., Worral, Q., 2019, Zhenchun Li, Jianping Huang, Haipeng Li. 2019, Multiparameter least-squares reverse time migration for acoustic–elastic coupling media based on ocean bottom cable data. Applied Geophysics, 16(3), 327–337. [28] Sun, W., Li, Z., Qu, Y.*, Li, Z., 2019, Multiple attenuation using λ–f domain high-order and high-resolution Radon transform based on SL0 norm. Applied Geophysics, 16(4), 473–482. [29] K. Chen, S. Han, Q. Ran, L. Wen, G. Zhang, and Y. Qu*. 2023, Steeply dipping structural target-oriented viscoacoustic least- squares reverse time migration and its application: Applied Geophysics, 19, no. 4, 528-536. ◇其他代表性SCI论文: [30] Qu, Y., Li, Z., Huang, J., Li, J., 2017, Viscoacoustic anisotropic full waveform inversion. Journal of Applied Geophysics, 136, 484-497. [31] Qu, Y., Li, Z., Huang, J., Li, J., 2016, Multi-scale full waveform inversion for areas with irregular surface topography in an auxiliary coordinate system. Exploration Geophysics. 49(1), 70-82. [32] Qu, Y., Li, Z., Huang, J., Li, J., 2017, An elastic full waveform inversion based on wave-mode separation. Exploration Geophysics. 52(4): 422-444. [33] Qu Y., Zhou C., Liu C., et al., 2020, P- and S-wave separated elastic reverse time migration for OBC data from fluid-solid coupled media with irregular seabed interfaces. Journal of Applied Geophysics, 172: 103882. [34] Qu, Y., Liu, C., Huang, C., Zhou, C. Sun, J., and Li, Z., 2021, Elastic reverse time migration of prismatic waves for surface topography based on decoupled elastic wave equations in the curvilinear coordinates. Exploration Geophysics, 52(4), 369-387. [35] Wang, Y., Qu, Y.*, 2021, Q-compensated full waveform inversion for velocity and density, Exploration Geophysics, 53(5), 487-500. [36] Qu, Y., Qurmet, W. Zhou, C., et al., 2022, Acoustic-elastic coupled least-squares reverse time migration in marine environment with rugged seabed interface, Exploration Geophysics, 53(2), 169–185. [37] Liu, C., Qu, Y.*, Li, Z., Zeng S., Yang, T., and Zhao W., 2023, Staining algorithm for least-squares reverse time migration: Journal of Applied Geophysics, 219. [38] Tao T., Qu, Y.*, Li Z., Dong Y., 2023. Viscoacoustic VTI media reverse time migration method in the complex-domain based on the staining algorithm. Journal of Applied Geophysics. [39] Liu, C., Qu, Y.*, Li, Z., Zeng, S., Yang, T., and Zhao, W., 2023, Regional staining reverse time migration algorithm based on energy-constrained factors: Acta Geophysica. ◇国际会议论文: 发表国际会议论文40余篇,受邀参加境外SEG、EAGE会议,并做主题报告18次。 资助学生参加欧洲维也纳、马德里、阿姆斯特丹、哥本哈根、伦敦等召开的EAGE年会及美国召开的SEG年会,及国内召开的各种国际、国内会议,培养学生的国际化视野。 EAGE、SEG国际顶会论文如下: [40] Li, J, Qu, Y, Li, Z., et al., Joint acoustic and separated-elastic least-squares reverse time migration for simultaneously using water-land dual-detector data. 84th EAGE Annual Conference & Exhibition. European Association of Geoscientists & Engineers, 维也纳,奥地利,2023. [41] Wang Y, Qu Y, Huang C, et al. Image domain seismic inversion based on multi-combined point spread function. 84th EAGE Annual Conference & Exhibition. European Association of Geoscientists & Engineers, 维也纳,奥地利,2023. [42] Wang Y, Qu Y, Huang C, et al. Velocity-adaptive irregular point spread function deconvolution imaging. 84th EAGE Annual Conference & Exhibition. European Association of Geoscientists & Engineers, 维也纳,奥地利,2023. [43] Huang C, Qu Y, Li M, et al. A high-resolution point-spread function deconvolution imaging method based on Gaussian smoothing X-shaped denoising diffusion filtering operator. 84th EAGE Annual Conference & Exhibition. European Association of Geoscientists & Engineers, 维也纳,奥地利,2023. [44] Jianggui Zhu; Yingming Qu; Q-Compensated Least-Squares Reverse Time Migration with Velocity-Anisotropy Correction Based on the First-Order Velocity-Pressure Equations, 83rd EAGE Annual Conference & Exhibition, 马德里,西班牙, 2022. [45] Jianggui Zhu; Yingming Qu; Zhenchun Li; Chang Liu; Bo Ma; Elastic Full Waveform Inversion Based on an Optimized Flux-Corrected Transport, 83rd EAGE Annual Conference & Exhibition, 马德里,西班牙, 2022. [46] Bo Ma; Yingming Qu; Qi Ran; Kang Chen; Song Han; Zhenchun Li; Viscoacoustic Least-Squares Reverse Time Migration Method and Application for Steering Geological Targets with Steep Dip Angles, 83rd EAGE Annual Conference & Exhibition, 马德里,西班牙, 2022. [47] Chongpeng Huang; Yingming Qu; Zhenchun Li; Least-Squares Reverse Time Migration Using the Safe Type-Ⅰ Anderson Acceleration, 83rd EAGE Annual Conference & Exhibition, 马德里,西班牙, 2022. [48] Chongpeng Huang; Yingming Qu; Zhenchun Li; A new reverse time migration denoising method based on diffusion filtering with X-shaped denoising operator, Meeting for Applied Geoscience & Energy, 2022, 休斯顿,美国, 2022. [49] Bo Ma; Yingming Qu; Zhenchun Li; Jianggui Zhu; Chang Liu; RTM method of prismatic-waves under the undulating surface_ a case study of the LongmenPiedmont, Second International Meeting for Applied Geoscience & Energy, 休斯顿,美国, 2022. [50] J. Li; Yingming Qu; Chongpeng Huang; Zhenchun Li; Q-compensated least-squares reverse time migration by considering velocity and Q perturbations, Second International Meeting for Applied Geoscience & Energy, 休斯顿,美国, 2022. [51] Yingming Qu; Chang Zhou; Chang Liu; Zhenzhong Chen; Kai Xu; Q-compensated least-squares reverse time migration of different-order multiples, 82nd EAGE Conference & Exhibition, 阿姆斯特丹, 荷兰, 2021. [52] Chongpeng Huang; Yingming Qu; Zhencun Li; 3D Encoding Least-squares Reverse Time Migration in Curvilinear-r Domain Based on Student’s t Distribution, 82nd EAGE Annual Conference & Exhibition, 阿姆斯特丹, 荷兰, 2021 [53] Jingru Ren; Yingming Qu; A Dynamic Sampling Fwi Method Based on 3d Seismic Wave Reverse Illumination, 82nd EAGE Annual Conference & Exhibition, 阿姆斯特丹,荷兰, 2021. [54] Yixin Wang; Yingming Qu; Zhenchun Li; Least-Squares Reverse Time Migration with Density Disturbance Based on the First-Order Viscoacoustic Quasi-Differential Equations, 82nd EAGE Annual Conference & Exhibition, 阿姆斯特丹,荷兰, 2021. [55] Qurmet; Yingming Qu; Zhenchun Li; J. Li; Chang Liu; Junzhi Sun; Chongpeng Huang; Elastic Least-Squares Reverse Time Migration in the Rugged Seabed Structure, 82nd EAGE Annual Conference & Exhibition, 阿姆斯特丹,荷兰, 2021. [56] Wenzhi Sun; Zhenchun Li; Yingming Qu; The 3D conical Radon transform for linear noise attenuation, SEG Technical Program Expanded Abstracts 2020, 休斯顿,美国, 2020. [57] Yingming Qu, Chang Zhou, Chang Liu et al. Q-compensated least-squares reverse time migration of different-order multiples, 82nd EAGE Conference & Exhibition. 阿姆斯特丹,荷兰, 2020. [58] Qu, Y., Li, Z., Huang, J., Deng, W., Li, J., The application of pseudospectral method and a stable reverse-time propagator for viscoacoustic RTM. 85th SEG Annual International Meeting, 4355-4359. 新奥尔良,美国,2015. [59] Qu, Y., Li, Z., Huang, J., Li, J., Anelastic Modeling for the Media with Irregular Fluid-solid Interfaces. 78th EAGE Conference and Exhibition. 奥地利,维也纳,2016. [60] Qu, Y., Li, Z., Huang, J., Li, J., Viscoacoustic VTI Least Square Reverse Time Migration. 78th EAGE Conference & Exhibition. 奥地利,维也纳,2016. [61] Qu, Y., Li, Z., Huang, J., Li, J., Liu, B., Irregular surface FWI in an auxiliary coordinate system based on the first-order velocity-stress equation. 86th SEG Annual International Meeting, 1079-1083. 达拉斯,美国,2016. [62] Qu, Y., Huang, J., Li, Z., Han, Y., Li, Q., A Joint Waveform Inversion Strategy - Combing Full Waveform Inversion with Prismatic Waveform Inversion. 77th EAGE Conference and Exhibition. 马德里,西班牙, 2015. [63] Huang, J., Qu, Y.*, Li, Z., Li, Q., Mapping forward modeling method based on dual-variable grid. 77th EAGE Conference and Exhibition. 伦敦,英国, 2013. [64] Guo, Y. D., Huang, J. P., Li, Z. C., Qu, Y. M.*, Hang, Y.T., Polarity encoding full waveform inversion with prior model based on blend data. 78th EAGE Conference & Exhibition. 奥地利,维也纳,2016. [65] Qu, Y., Li, Z., P- and S-wave separated elastic reverse time migration for OBS data from fluid-solid media with irregular sebed interfaces. 82th EAGE Conference and Exhibition. 哥本哈根,丹麦,2018 [66] Yingming Qu*, Zhenchun Li, and Jianping Huang, viscoacoustic forward modelling for irregular surface topography based on a second-order viscoacoustic quasi-differential equation without memory variables. 88th SEG Annual International Meeting. 阿纳海姆,美国,2018 [67] Qu, Y., Huang, J., Li, Z., Li, Q., Pre-stack Reverse Time Migration Based on layered Mapping Method for Irregular Surface. 68th EAGE Conference and Exhibition. 马德里,西班牙, 2015. [68] Qu, Y., Huang, J., Li, Z., Deng, W., A New Reverse Time Migration Method for Viscoacoustic VTI Medium. 77th EAGE Conference & Exhibition. 马德里,西班牙, 2015. [69] Qu, Y., Li, Z., Huang, J., et al., The least-squares reverse time migration for viscoacoustic medium based on a stable reverse-time propagator. 85th SEG Annual International Meeting, 3977-3980. 新奥尔良,美国,2015. [70] Qu, Y., Z. Li, W, Qurmet, et al., Fluid-solid coupled elastic full waveform inversion in the curvilinear coordinates for OBC data, 81st EAGE Conference & Exhibition. 伦敦,英国,2019. [71] Qu, Y., Z. Li, et al., 2019, Elastic forward modelling method for an irregular surface in the curvilinear-polar coordinates, 81st EAGE Conference & Exhibition. 伦敦,英国,2019. [72] Qu, Y., Z. Li, et al., 2019, Elastic reverse time migration in irregular tunnel environment based on polar coordinate system. 89th SEG Annual International Meeting. 圣安东尼奥,美国,2019. [73] Qu, Y., Li, Z., Huang, J., Li, Q., Yang, Y., Li, J., 2015, Elastic wave modeling and wavefield separation of irregular free-surface based on multiblock mapping method. 85th SEG Annual International Meeting, 3724-3728. 马德里,西班牙, 2015.
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