三维地震数据断层检测方法研究
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摘要
随着相干技术在地震断层解释中的不断应用以及油气勘探开发转为小工区、小断裂带的需求,正确识别小断层及其空间位置分布极为重要。但是,在常规的地震资料基础上,应用相干技术识别小断层的方法并不理想,存在某些不足。例如地震资料中存在大倾角、杂乱反射产生的地震资料等,都对相干技术应用的效果产生了影响,造成识别出来的断层不连续或着包含虚假断层。
本文结合国内外相干技术的发展,充分研究了几种相干算法的原理,对比分析各种算法的优缺点及相干参数对断层检测的影响,提出了一种沿三维反射界面进行相干计算的方法,不仅可以消除地层倾斜及褶皱变形的影响,还提高了小断层识别的分辨率和清晰度。
在算法实现过程中,利用三维图形技术将原始数据剖面图像与相干切片图像组成栅状图进行综合显示和对比分析,还利用虚拟轨迹球技术实现三维交互旋转等操作,直观地进行三维显示和观察。
Accompanying with the application of Coherent Technology in the interpretation of earthquake fault, and it is very important of recognizing the small faults for the oil and the gas exploration and development. But on the basis of conventional seismic data, there are some deficiencies on the application of coherent techniques to identify the small faults.The old method is not satisfactory. For example, the presence of large angle seismic data and seismic data generated bychaotic reflections both had an impact on coherent results, which was causing the fault is not identified with a continuous or contain false fault.
This article considered the development of coherent technology, had a full study of the principles of coherence algorithm for generations and the principle of the phase surface tracking, and had a comparison of advantages and disadvantages of each generation algorithm and the effect of the coherence parameters for the coherent slices. Finally, based on the same physiognomy tracking face,proposed a coherent method which can eliminate the influence of tilted and folded stratum, at the same time, improve the resolution and clarity of identification of small fault.
In the algorithm process, using three-dimensional graphics technology to display and comparative analysis grid-like graph, which is constituted by the profile image and the coherent image. Also using the virtual trackball technology to achieve three dimensional interactive rotation. The images can be easy to three-dimensional display and intuitive observation.
本文结合国内外相干技术的发展,充分研究了几种相干算法的原理,对比分析各种算法的优缺点及相干参数对断层检测的影响,提出了一种沿三维反射界面进行相干计算的方法,不仅可以消除地层倾斜及褶皱变形的影响,还提高了小断层识别的分辨率和清晰度。
在算法实现过程中,利用三维图形技术将原始数据剖面图像与相干切片图像组成栅状图进行综合显示和对比分析,还利用虚拟轨迹球技术实现三维交互旋转等操作,直观地进行三维显示和观察。
Accompanying with the application of Coherent Technology in the interpretation of earthquake fault, and it is very important of recognizing the small faults for the oil and the gas exploration and development. But on the basis of conventional seismic data, there are some deficiencies on the application of coherent techniques to identify the small faults.The old method is not satisfactory. For example, the presence of large angle seismic data and seismic data generated bychaotic reflections both had an impact on coherent results, which was causing the fault is not identified with a continuous or contain false fault.
This article considered the development of coherent technology, had a full study of the principles of coherence algorithm for generations and the principle of the phase surface tracking, and had a comparison of advantages and disadvantages of each generation algorithm and the effect of the coherence parameters for the coherent slices. Finally, based on the same physiognomy tracking face,proposed a coherent method which can eliminate the influence of tilted and folded stratum, at the same time, improve the resolution and clarity of identification of small fault.
In the algorithm process, using three-dimensional graphics technology to display and comparative analysis grid-like graph, which is constituted by the profile image and the coherent image. Also using the virtual trackball technology to achieve three dimensional interactive rotation. The images can be easy to three-dimensional display and intuitive observation.
引文
参考文献
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[2]王彦君,雍学善,刘应如.小断层识别技术研究及应用.勘探地球物理进展.2007,30(2):135-139
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[9]张向君,李幼铭,钟吉太等.三维相干切片断层多边形检测.物探化探计算技术.2001,23(4):295-298
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[11]王一重.构造断层的相干识别技术[D].吉林大学.2009
[12]杨墨,孙文,赵志骏,孙剑波.相关函数在检测周期性信号中的应用.2007,9(1):25-27
[13]丛茂祥,李洪亮.C_1相干算法及其在三维地震资料处理解释中的应用.中国煤田地质.2005,17(2):49-50
[14]杨振武,李显贵,王安志新场、东泰、合兴场三维地震相干及应用石油地球物理勘探2000,35(3):399-345
[151付雷,田晓冬,闫庆学等.相干体技术在三维地震资料中的应用.世界地质.2000,19(3):279-281
[16]丁在宇,张爱敏.C2相干体在断层解释中的应用.煤田地质与勘探.2005,33(5):76-78
[17]王晋国,宁宇蓉,田丰等.基于相干数据体的裂隙检测方法.长安大学学报.2008,28(1):107-110
[18]王玉学,韩大匡,刘文岭等.相干体技术在火山岩预测中的应用.石油物探.2006,45(2):192-196
[19]王怀洪,王秀东,田育鑫.利用相干体技术探测煤矿微小构造方法研究.地球物理学进展.2007,22(5):1642-1649
[20]MarfurtKurtJ,KirlinRLynn.3D Seismic Attributes Using a Semblance-Based Coherency Algorithm[J]. Geophysics.1998,63(4):1150-1165
[21]王琦,夏玲燕,柏冠军.C3相干体技术在陷落柱识别中的应用.江苏地质.2007,31(4):367-369
[22]王从镔,龚洪林,许多年等.高分辨率相干体分析技术及其应用.地球物理学进展.2008,23(5):1575-1578
[23]韩喜,余钦范.子体相干技术在地震解释中的应用.勘探地球物理进展.2007,30(1):47-51
[24]刘亚淼.基于能量的地震属性提取及其应用[D].中国地质大学.2008
[25]Tina Lohr,Charlotte M. Krawczyk,Onno Oncken. Evolution of a fault surface from 3D attribute analysis and displacement measurements. Journal of Structural Geology. 2008,30(6):690-700
[26]马瑾环,陈国俊,吴志高等.改进的第三代相干算法及应用.勘探地球物理进展.2007,30(4):286-296
[27]余德平,曹辉,郭全仕断裂系统解释与储层预测中的三维相干技术石油与天然气地质.2007,28(1):100-105
[28]闫德庆,庞留彦,仲其涛等C_1相干算法及其在三维地震勘探解释中的应用.物探化探计算技术.2001,23(3):206-209
[29]靳玲,张本书,苏桂芝等.相干体参数的实验选取.断块油气田.2005,12(2):24-27
[30]孙义梅,杨春峰,陈程等.相干技术的参数选取及其效果分析.石油地球物理勘探.2001,36(5):640-645
[31]张军华,王永刚,赵勇.相干体技术算法改进及其在TJH地区的应用.物探与化探2002(1)
[32]李勤英,阎育英,赵爱武.地震资料全三维精细构造解释技术研究.断块油气田2001,8(1):61-91
[33]陈国俊,王纬,张宏地震相干体软件开发及其应用效果分析工程地球物理学报2004,5(1):399-403
[34]张军华,周振晓,谭明友等.地震切片解释中的几个理论问题.石油地球物理勘探.2007,42(3):348-352
[35]张二华,马仁安,杨静宇.三维反射面追踪.石油地球物理勘探.2004,39(2):168-172
[36]许景新,刘显德一种三维地震反射面自动追踪算法及其应用大庆石油学院学报2007,31(4):73-75
[37]赵士华,张兴平.煤矿采区三维地震构造精细解释技术-全三维地震解释技术.中国煤田地质.2003,15(5):53-56
[38]David Gibson, Michael Spann, Jonathan Turner, and Timothy Wright. Fault Surface Detection in 3-D Seismic Data. IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING.2005,43(9):2094-2102
[39]Melanie Aurnhammer and Klaus D. Tonnies. A Genetic Algorithm for Automated Horizon Correlation Across Faults in Seismic Images. IEEE Transactions on evolutionary computation.2005,9(2):201-210
[40]Lionel Valet, Gilles Mauris, Philippe Bolon. Seismic Image Segmentation by Fuzzy Fusion of Attributes.IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT.2001,50(4):1014-1018
[41]Melanie Aurnhammer and Rafael Mayoral. Improving Seismic Horizon Matching by Ordinal Measures. IEEE Pattern Recognition Proceedings of the 17th International Conference on.2004
[42]Fitsum Admasu, Klaus Toennies. Automatic Method for Correlating Horizons across Faults in 3D Seismic Data. Computer Vision and Pattern Recognition,2004. CVPR 2004. Proceedings of the 2004 IEEE Computer Society Conference2004(1):114-119
[43]温庆庆.可视化地震资料解释系统的研究与开发[D].西安科技大学.2008
[44]吴文国译.交互式计算机图形学:基于OpenGL的自顶向下方法(第4版).清华大学出版社.2007
[45]K.R.Castleman著朱志刚等译.数字图像处理.电子工业出版社.1998
[46]胡学龙,许开宇.数字图像处理.电子工业出版社.2006
[1]覃天.多属性相干方法识别微小断层.工程地球物理学报.2008,5(5):538-542
[2]王彦君,雍学善,刘应如.小断层识别技术研究及应用.勘探地球物理进展.2007,30(2):135-139
[3]汤祥武,宋中应.三维地震勘探小断层的解释方法及应用.煤矿开采.2002,7(3):12-13
[4]吕小慧.三维地震资料中断层识别方法研究[D].南京:南京理工大学.2004
[5]陆基孟.地震勘探原理(上册).石油大学出版社.1993
[6]赵东卫.基于区域生长的三维地震数据场的面可视化方法研究[D].南京理工大学.2007
[7]陆基孟.地震勘探原理(下册).石油大学出版社.1993
[8]张军华,王月英,赵勇.C3相干体在断层和裂缝识别中的应用.地震学报.2004,26(5):560-564
[9]张向君,李幼铭,钟吉太等.三维相干切片断层多边形检测.物探化探计算技术.2001,23(4):295-298
[10]叶增炉.小波相干技术及在地震解释中的应用[D].成都:成都理工大学.2006
[11]王一重.构造断层的相干识别技术[D].吉林大学.2009
[12]杨墨,孙文,赵志骏,孙剑波.相关函数在检测周期性信号中的应用.2007,9(1):25-27
[13]丛茂祥,李洪亮.C_1相干算法及其在三维地震资料处理解释中的应用.中国煤田地质.2005,17(2):49-50
[14]杨振武,李显贵,王安志新场、东泰、合兴场三维地震相干及应用石油地球物理勘探2000,35(3):399-345
[151付雷,田晓冬,闫庆学等.相干体技术在三维地震资料中的应用.世界地质.2000,19(3):279-281
[16]丁在宇,张爱敏.C2相干体在断层解释中的应用.煤田地质与勘探.2005,33(5):76-78
[17]王晋国,宁宇蓉,田丰等.基于相干数据体的裂隙检测方法.长安大学学报.2008,28(1):107-110
[18]王玉学,韩大匡,刘文岭等.相干体技术在火山岩预测中的应用.石油物探.2006,45(2):192-196
[19]王怀洪,王秀东,田育鑫.利用相干体技术探测煤矿微小构造方法研究.地球物理学进展.2007,22(5):1642-1649
[20]MarfurtKurtJ,KirlinRLynn.3D Seismic Attributes Using a Semblance-Based Coherency Algorithm[J]. Geophysics.1998,63(4):1150-1165
[21]王琦,夏玲燕,柏冠军.C3相干体技术在陷落柱识别中的应用.江苏地质.2007,31(4):367-369
[22]王从镔,龚洪林,许多年等.高分辨率相干体分析技术及其应用.地球物理学进展.2008,23(5):1575-1578
[23]韩喜,余钦范.子体相干技术在地震解释中的应用.勘探地球物理进展.2007,30(1):47-51
[24]刘亚淼.基于能量的地震属性提取及其应用[D].中国地质大学.2008
[25]Tina Lohr,Charlotte M. Krawczyk,Onno Oncken. Evolution of a fault surface from 3D attribute analysis and displacement measurements. Journal of Structural Geology. 2008,30(6):690-700
[26]马瑾环,陈国俊,吴志高等.改进的第三代相干算法及应用.勘探地球物理进展.2007,30(4):286-296
[27]余德平,曹辉,郭全仕断裂系统解释与储层预测中的三维相干技术石油与天然气地质.2007,28(1):100-105
[28]闫德庆,庞留彦,仲其涛等C_1相干算法及其在三维地震勘探解释中的应用.物探化探计算技术.2001,23(3):206-209
[29]靳玲,张本书,苏桂芝等.相干体参数的实验选取.断块油气田.2005,12(2):24-27
[30]孙义梅,杨春峰,陈程等.相干技术的参数选取及其效果分析.石油地球物理勘探.2001,36(5):640-645
[31]张军华,王永刚,赵勇.相干体技术算法改进及其在TJH地区的应用.物探与化探2002(1)
[32]李勤英,阎育英,赵爱武.地震资料全三维精细构造解释技术研究.断块油气田2001,8(1):61-91
[33]陈国俊,王纬,张宏地震相干体软件开发及其应用效果分析工程地球物理学报2004,5(1):399-403
[34]张军华,周振晓,谭明友等.地震切片解释中的几个理论问题.石油地球物理勘探.2007,42(3):348-352
[35]张二华,马仁安,杨静宇.三维反射面追踪.石油地球物理勘探.2004,39(2):168-172
[36]许景新,刘显德一种三维地震反射面自动追踪算法及其应用大庆石油学院学报2007,31(4):73-75
[37]赵士华,张兴平.煤矿采区三维地震构造精细解释技术-全三维地震解释技术.中国煤田地质.2003,15(5):53-56
[38]David Gibson, Michael Spann, Jonathan Turner, and Timothy Wright. Fault Surface Detection in 3-D Seismic Data. IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING.2005,43(9):2094-2102
[39]Melanie Aurnhammer and Klaus D. Tonnies. A Genetic Algorithm for Automated Horizon Correlation Across Faults in Seismic Images. IEEE Transactions on evolutionary computation.2005,9(2):201-210
[40]Lionel Valet, Gilles Mauris, Philippe Bolon. Seismic Image Segmentation by Fuzzy Fusion of Attributes.IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT.2001,50(4):1014-1018
[41]Melanie Aurnhammer and Rafael Mayoral. Improving Seismic Horizon Matching by Ordinal Measures. IEEE Pattern Recognition Proceedings of the 17th International Conference on.2004
[42]Fitsum Admasu, Klaus Toennies. Automatic Method for Correlating Horizons across Faults in 3D Seismic Data. Computer Vision and Pattern Recognition,2004. CVPR 2004. Proceedings of the 2004 IEEE Computer Society Conference2004(1):114-119
[43]温庆庆.可视化地震资料解释系统的研究与开发[D].西安科技大学.2008
[44]吴文国译.交互式计算机图形学:基于OpenGL的自顶向下方法(第4版).清华大学出版社.2007
[45]K.R.Castleman著朱志刚等译.数字图像处理.电子工业出版社.1998
[46]胡学龙,许开宇.数字图像处理.电子工业出版社.2006