相干体

  • 网络coherence;coherence cube
相干体相干体
  1. 小波分析与C3相干体在小断层解释中的应用

    Application of wavelet analysis and C_3 coherence cube to interpretation of small faults

  2. 介绍了C3相干体算法的基本原理和具体实现方法。

    The basic theory of C3 coherence cube arithmetic was mainly discussed in the text .

  3. C3相干体在断层和裂缝识别中的应用

    Application of the third generation of coherent cube in recognizing faults and fractures

  4. C2相干体在断层解释中的应用

    Application of C2 coherence cube technology in fault detection

  5. 再利用Landmark工作站主、连线闭合、水平切片、相干体技术对层位和断层进行精细构造解释。

    Then horizontal chip and some other technology which provided by Landmark workstation are used to interpret fine structure of faults and horizons .

  6. 再根据二维与三维地震剖面对比、两步法F-K滤波处理、相干体检测、制作沿层切片、与相邻工区对比等,排除了采集脚印的可能。

    Comparing 2-D and 3-D cross line , filtering two steps F-K , scanning seismic coherency cube and time slices , and contrasting with adjacent area show that the probability of seismic footprint could be negated .

  7. 应用相干体技术可有效地进行断层解释。

    Using coherent cube technique can effectively carry out fault interpretation .

  8. 基于小波变换的地震相干体算法及其应用

    Computation of seismic coherence cube based on wavelet transform and its application

  9. 相干体技术在识别小断层和陷落柱中的应用

    Application of Coherent Body Technique in Minor Fault and Subsided Column Identification

  10. 地震资料相干体技术的应用,为进一步提高储层构造分析精度提供了有利的工具。

    Coherence cube is used to improve the description of reservoir structure .

  11. 相干体技术在河道预测中的应用

    Application of coherence technology in the prediction of channel sand

  12. 相干体技术算法研究及其在地震资料解释中的应用

    Development and application of algorithm of coherency cub technique to seismic interpretation

  13. 地震相干体软件开发及其应用效果分析

    Seismic coherence cube software development and its applied result analysis

  14. 应用相干体技术研究生产矿井中的特殊地质体

    Specific Geological Body Investigation in Producing Coalmine by the Use of Coherence Technique

  15. 基于高阶统计量的相干体算法及砂体沉积演化分析

    Coherency algorithm based on higher-order statistics and sedimentary evolvement analysis of sandstone bodies

  16. 相干体技术和细线化技术在断层检测中的综合应用

    Synthetical application of coherence cube technology and graph thinning technology in fault detection

  17. 3利用地震相干体技术及断层封堵技术确定目标层位;

    Using seismic coherent volume technique and fault shut-up technique to determine objective interval ;

  18. 相干体参数的实验选取

    The Experiment Selection of the Concern Data Parameter

  19. 该技术结合相干体技术可进行复杂断层的解释与组合;

    This technology can be integrated with the coherence technique to interpret complex faults .

  20. 相干体技术与图像处理中的细化以及边缘检测技术的结合,可以克服不确定因素造成的影响。

    The3D coherence slice is considered as2D map and processed further using image processing technology .

  21. 地震相干体技术简介及其应用

    Seismic coherence cube technology and its application

  22. 基于保边去噪的高精度相干体分析应用研究

    High-accuracy Coherence Analysis Based on Edge-preserving Smoothing

  23. 在相干体切片上,断层清楚,火山口和火山岩体分布范围清晰。

    The faults and the distribution of volcanic rock are clear in the slices of coherence cube .

  24. 简要介绍了相干体技术和细线化技术。

    In this paper , the coherence cube technology and graph thinning technology of image processing are introduced .

  25. 相干体与方差体技术在全三维地震资料解释中的应用

    Application of the technology of relevance coherence cube and variance cube in interpretation of full 3-D seismic data

  26. 相干体技术识别小断层&以宋芳屯油田芳231区块为例

    Identifying small faults by coherent body technique : A case study for Fang 231 Area of Song fang-tun Oilfield

  27. 介绍了适于复杂断块地区解释的相干体技术工作原理、解释方法。

    The working principle and interpreting method of the coherent volume are introduced for complex fault block area interpretation .

  28. 通过对相干体的解释,能清晰地展示断层、裂缝发育带的分布等。

    This technology can apparently reveal the distribution of fault and fracture development zones by the interpretation of coherent data .

  29. 用相干体切片来检测断层,可提高解释精度和效率;

    The application example indicates that application of 3D coherence technology can improve the accuracy and efficiency of fault interpretation .

  30. 相干体上的低相干值通过相干时间切片和相干层拉平切片来反映。

    The low coherence value in the coherence cube is reflected by the coherent time slice and coherent bed flattening slice .