地球物理勘探

  • 网络geophysics;Geophysical Exploration;geophysical prospecting;Exploration Geophysics
地球物理勘探地球物理勘探
  1. Radon变换是数学上的变换,CT是计算机成像应用装置,在地球物理勘探中可以借鉴Radon变换和CT成像技术。

    Radon transform ( a mathematic transform ) and CT ( a computer tomography ) may be used in geophysical prospecting .

  2. 东方地球物理勘探有限责任公司(BGP)是中国石油天然气集团公司(CNPC)控股的大型公司制企业。

    Bureau of Geophysical Prospecting ( BGP ) is a company categorized to CNPC .

  3. GPS测量在石油地球物理勘探中的应用

    Application of GPS Survey in Geophysical Exploring for Oil

  4. 导航型GPS在海上地球物理勘探中的应用&卫导数据随机噪声处理

    The application of navigation GPS data in marine geophysical exploration ── processing of random noise in GPS navigation data

  5. 论Radon变换在地球物理勘探中应用的可能性

    On the possibility of using Radon transform in geophysical prospecting

  6. 本文对国内外在堤坝渗漏探测方面的理论与方法进行了全面的归纳与总结,包括传统的地球物理勘探技术、渗流监测技术、各种CT技术和综合示踪技术等。

    The theories and method about leakage detection of the river dyke , suchas geophysical , leakage measurement , CT 's , integrated tracing technique , etc.

  7. 简要叙述GPS技术在我国石油地球物理勘探中的应用以及这种方法在具体应用中体现出的优越性和它的发展前景。

    The application of GPS technology in oil geophysical exploring is described , the advantages of this method and its developing prospects are introduced .

  8. 高性能计算机(HPC)在煤炭地球物理勘探中的应用与展望

    Application and prospect of HPC in geophysical prospecting

  9. 随着微电子技术的发展,将DSP芯片技术运用于地球物理勘探仪器之中,提高实时数据处理效率成为重要的发展方向。

    With the development of microelectronics , using DSP chip in geophysical exploration instruments to improve the efficiency of real-time data processing is a significant research subject .

  10. 该控制系统的设计,为SQUID磁强计在地球物理勘探中的推广应用奠定了坚实的基础。

    The proposed control system would provide a basis for SQUID magnetometer to be widely used for geophysical exploration .

  11. 在水文地质测绘、勘探、现场试验和TEM地球物理勘探等工作基础上,建立三维含水结构模型,通过数值模拟方法对水源地开发规模进行比选分析。

    Based on the work of hydrogeologic survey , exploration , pumping test and geophysical exploration ( TEM ), the three-dimensional structure which contained the groundwater was put up in this paper .

  12. 指出3S技术、野外和室内测试试验、长观动态监测和地球物理勘探等是矿山环境调查的主要技术手段和方法;

    In the meanwhile 3S technology , field and lab experiments , long-term dynamic observation and geo-physical prospectings are thought to be the main technological means and methods .

  13. 石油地球物理勘探,2002,37(1):65~68裂缝检测与图像分析中的边缘检测有许多相似之处。本文基于IFS图像边缘检测理论,提出了地震分形边缘检测的思路和计算方法。

    In this paper a thought of seismic fractal edge detection and calculation method are proposed based on IFS ( Iterated Function System ) image edge detection theory .

  14. 地面透射雷达(GPR)是一种高分辨率浅层地球物理勘探仪器,它适用于考古勘探中目标体埋藏浅、尺度小、物性差异不大的特点。

    As one kind of high-resolution near-surface geophysical technology , ground-penetration radar is suitable for archaeological prospection , where the target is shallow , small and similar with its surrounding materials .

  15. 通过资料分析、现场考察和地球物理勘探以及钻探等手段,对通过闸址区而直接影响船闸群安全的F5断裂进行了系统的分析和评价。

    The comprehensive analysis and evaluation was made of the fault F5 which passes the site and directly influences the ship lock 's safety .

  16. SEG年会是国际地球物理勘探学术界交流、研讨最新技术动向与发展趋势的论坛。

    SEG is an annual forum on which the academic world of international geophysical prospecting can ex-change and discuss the newest trend of technology .

  17. 虚拟仪器工程地球物理勘探仪器的发展方向兼介绍LXⅡ岩土工程质量检测分析仪

    Virtual Instrumen ─ the Developmental Direction of Engineering Geophysical Exploration ( EGE ) Instrument ─ & Introduction of LX ⅱ Rock and Soil Engineering Quality Detection Instrument

  18. 地球物理勘探地图数据库GEMDB的设计与实现

    Design and Implementation of Geophysical Exploration Map Data base

  19. 马永生:VSP中绕射波的理论研究初探,《石油地球物理勘探》。23(4)1988:468~473467VSP资料中包含有多种信息,即构造信息,地层信息和绕射波信息等。

    Ma Yongsheng : The initial theoretical approach of diffraction in VSP data , OGP , 23 ( 4 ) 1988:468 ~ 473,467 VSP data contains some kinds of information : structure informa - tion , stratigraphic information and diffraction information etc.

  20. 本文将联合时-频分析(JTFA)用于处理地球物理勘探中具有扩散性质的瞬变电磁场信号。

    This paper uses joint time-frequency analysis ( JTFA ) for processing transient electromagnetic ( TEM ) field signals that have diffuse feature in geophysical exploration .

  21. 目前地球物理勘探(物探)工作使用的专业电子仪器的工作频率都较低,所以在物探仪器中运用陷波器相当普遍,特别是用于压制50Hz电力线的干扰方面。

    At present , the frequency of geophysical exploration instrument is low , so the notch filter is generally needed , especially in suppressing the 50 Hz power line interference .

  22. 该文提出了一种地球物理勘探地图数据库GEMDB(GeophysicalExplorationMapDatabase)应用系统的系统设计与实现方案。

    This paper presents a system scheme based on extended relation data mode for GEMDB ( Geophysical Exploration Map Database ) .

  23. Rayleigh面波法是一种新兴的地球物理勘探方法,具有能量大,信噪比高等特点,近些年来越来越多的被应用于浅层地球物理勘探,深层地震学研究,超声波无损检测等多个领域。

    Rayleigh-wave-method is a new method in geophysical prospecting . Rayleigh wave usually has more energy and higher signal to noise ratio than body waves , so there are more and more applications of Rayleigh wave in geophysical prospecting , seismology and ultrasonic nondestructive testing and so on recent years .

  24. 分别从地质勘查、地球物理勘探和油藏工程等角度简要介绍了2003年EAGE技术年会有关风险评价方面的技术概况。

    This paper described briefly the risk assessment technologies in the view of geological investigation , geophysical exploration , and reservoir engineering , based on a review of the articles presented to the 65 th EAGE annual meeting .

  25. 提出一种基于多分辨率内插预测(MRIP)的数据压缩新方法,可将海洋地球物理勘探数据和声波测井数据无损压缩50%以上。

    A novel encoder based on interpolation and prediction in multi-resolution levels is proposed , it can compress ocean geophysical exploration echoes and sound-logging data loss-lessly more than 50 per cent .

  26. 山东探区地球物理勘探技术进展综述

    The progress summarization of technology of geophysical exploration in Shandong area

  27. 激光多普勒效应在地球物理勘探中的方法和理论研究

    Research on Geophysical Prospecting Method and Theory with Laser Doppler Effects

  28. 地球物理勘探中地震法的具体操作步骤有哪些?

    What are the procedures of geophysical survey by seismic method ?

  29. 东方地球物理勘探公司科技成果评价研究

    The Study on BGP 's Assessment of Scientific and Technological Production

  30. 四川石油地球物理勘探公司物探研究中心;

    Geophysical Exploration Research Center , Sichuan Geophysical Company ; 2 .