Data processing is the key of seismic prospecting.
数据处理是地震勘探关键所在。
Seismic prospecting plays an important role in this field.
地震勘探在这一领域中发挥了重要的作用。
Multiples are severe disturbance waves in seismic prospecting.
多次波严重干扰地震勘探成果。
It provides experience for engineering seismic prospecting in city.
为城市工程地震勘探提供了可供借鉴的经验。
Noise has always been the most troublesome problem in seismic prospecting.
噪声始终是地震勘探中最棘手的问题。
Seismic modelling is an important theoretical problem in seismic prospecting.
复杂地层构造的地震模拟,是地震勘探理论的重要问题。
The seismic prospecting of oil requires the use of high precision geophone strings.
石油地震勘探需要使用高精度检波器串。
The seismic modeling is the foundation of the seismic prospecting and the seismography.
地震数值模拟是地震勘探和地震学的基础。
Some examples show that the method can obtain a better resolution in seismic prospecting.
实验结果表明,随机分形插值方法是提高地震分辨率的简单有效方法。
This paper deals with the Walsh Transformation and sign bits checking as applied to seismic prospecting.
本文介绍沃希变换和符号位检测在地震勘探中的应用。
Collection of seismic prospecting informations in field is a basis and quality guarantee of seismic prospecting.
野外地震资料采集是地震勘探的基础和质量的基本保证。
The changing relation between the two restricts the threshold value of signal-to-noise ratio for seismic prospecting.
二者的变化关系制约着地震勘探的信噪比临界门限值。
Shallow seismic prospecting is one of the indispensable and important prospecting methods in earthquake zoning of cities.
浅层地震勘探是城市地震小区划中不可缺少的重要勘探手段之一。
The result indicated that the seismic prospecting technology has good applicable effects in tunnel engineering investigation.
结果表明地震技术在隧道工程勘查中具有良好的应用效果。
For the seismic prospecting data with additive noise, it has been put up to deal with the data using the chaotic oscillator system.
针对地震勘探资料中存在加性强随机噪声干扰,已经提出用混沌振子系统处理的方法技术。
It has been put up to detect the event using the chaotic oscillator detection system for the seismic prospecting data with additive noise.
针对地震勘探资料含加性强随机噪声,已提出用混沌振子系统检测同相轴的方法。
It is a great significant for surveying the full fields seismic movement in seismology and seismic prospecting as well as model seismology.
记录地面运动的全波场,对地震学、地震勘探学以及地震模型试验都有重要的意义。
It is a hot problem considered by many scientists that how to extract the valid signal in data of seismic prospecting with inherence of the chaos.
如何根据混沌固有的性质,对地震勘探资料中的有效信号进行提取是许多科学工作者极为关注的问题。
The SNR and resolution of seismic data can be effectively improved through high resolution processing of seismic data in shallow seismic prospecting.
浅层地震探测中,通过高分辨率数据处理,能有效地提高资料的信噪比和分辨率。
It is well known that attenuation by earth absorption depends on character of stratum and directly effects on imaging resolution in seismic prospecting.
众所周知,大地吸收衰减决定于地层的性质,并且大地吸收衰减直接影响地震勘探成像的分辨率。
The new design of digital geophone used in the occasion of high resolution seismic prospecting will pay an important roll in a new kind of seismography.
新型数字式地震检波器的设计,完全可以适应高分辨率地震勘探的要求,为基于可控震源的新型地震仪的实现起到了决定性作用。
Microlog data is the bedrock in regard to designing the shooting depth trigger and obtaining the static correction value during oil and seismic prospecting.
微测井资料是石油地震勘探中设计激发井深、求取静校正量的主要依据。
The general use of seismic prospecting and logging is an efficient means for the improvement and safety and scientific management of the deep well injection.
地震和测井的联合监测与测试,也是提高深井灌注效果、保证安全和科学管理的有效手段。
Joint time-frequency analysis is an important tool in seismic signal processing. With various realizations, this method is widely used in seismic prospecting.
联合时频分析是地震信号处理的一种重要分析工具,方法很多,应用广泛。
The performance of the MEMS accelerometer should be improved in satisfied with the high resolution, high-fidelity, high precision what seismic prospecting needs.
针对高分辨率、高保真、高精度地震勘探这一应用需求,需要进一步提高MEMS加速度传感器的性能。
D seismic prospecting is more and mo re extensively used in many aspectss uch as small faults , small structures and collapse column in mining areas of coal mine.
三维地震勘探在解决诸如小断层、小构造、煤矿采区陷落柱等方面的应用日益广泛。
It can achieve large amount of geological information in a short time by the way of remote sensing, geological survey, seismic prospecting, electrical prospecting.
以遥感、地面测绘、地震、电法等综合勘查手段为主,并充分利用已有成果,在较短的时里获得大量地质信息。
It can achieve large amount of geological information in a short time by the way of remote sensing, geological survey, seismic prospecting, electrical prospecting.
以遥感、地面测绘、地震、电法等综合勘查手段为主,并充分利用已有成果,在较短的时里获得大量地质信息。
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