子波处理技术是提高地震资料分辨率的一种有效方法,其关键在于获得准确的子波估计。
Wavelet processing, in which wavelet estimation is essential, is an effective technique for improving the resolution of seismic data.
实际地震资料处理的结果表明,以上处理技术和方法对该区复杂的资料处理效果明显。
Processing results of real seismic data show that these technologies and methods are suitable for use in areas with complex surface conditions.
本技术是通过8类方法,对地震、测井、地质等多种资料进行分析、处理,从中提取地震有效多属性信息。
This technique can obtain effective seismic multi-attribute information by applying 8 kinds of methods to analyze and process seismic, logging and geological data.
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。
For the seismic prospecting data with additive noise, it has been put up to deal with the data using the chaotic oscillator system.
在该区宽线二维地震资料处理中采用了层析反演静校正技术,较好地解决了所有波长静校正问题,处理效果明显改善。
After being applied tomography inversion statics in this area, the statics problem for all wavelengths were settled, the effect of processing was improved clearly.
作者研究了利用地震资料沿层按动态时窗提取多种特征参数进行综合处理的办法对油气进行预测的油气预测实用技术。
In this paper, we will present the seismic feature parameters by dynamic window method to build an utilitarian technology in predicting oil and gas speedily and effectively using seismic data.
以琼东南深海地震资料为例,在深入分析深海地震资料特点的基础上,开展了针对深海地震资料处理的技术研究。
Taking Qiongdongnan deep-sea seismic data as an example, this paper thoroughly analyzes and studies deep-sea seismic data and processing techniques.
在伊朗卡山地区三维地震资料处理过程中,利用该项技术很好地解决了近地表引起的静校正问题。
Satisfactory results have been reached during the processing of 3-d seismic data from Kashan Block of Iran by using the proposed method.
子波处理是提高地震资料分辨的一个重要手段,该技术的关键是地震子波的估计。
Wavelet Processing is an important technique used to improve the resolution of seismic data, in which the key is wavelet estimation.
通过研究智能面元均化、有源干扰去除、深海多次波去除、按水深切除及深水资料成像等多项处理技术,形成了深海地震资料处理的技术系列。
A serial of techniques developed through the study includes intelligent bin homogenizing, source interference elimination, deep-sea multiple removal, muting by water bottom and deep water data image.
随着勘探和开发对地震资料处理成果的要求越来越高,常规叠后时间偏移处理技术的缺陷日益显现出来。
With the requirment of precise seismic interpretation and thoroughgoing exploration, the conventional post-stack migration reveals its limitations.
在复杂地区三维地震资料拼接中,一致性处理是关键技术之一,其效果对成像质量影响重大。
In splicing 3-d seismic data, consistent processing is one of the key technologies because it has a great effect on imaging quality.
通过对实际三维地震资料的处理,结合已知地质资料,证明C1相干技术在三维地震资料的断层解释方面有着明显的效果。
The results of 3D seismic data processing, compared with known geologic data, showing that the C1 coherence algorithm is very effective for fault interpretation.
寻找非背斜圈闭油气藏在于地震运动学与动力学信息的充分应用,在于地震资料的特殊处理和各种新技术的广泛应用。
The discovery of non-anticline straps will mainly depend on the application of seismic kinematic and dynamic information, target oriented seismic processing and widely use of new techniques.
应用该项组合偏移技术,可缩短地震资料的处理周期,提高处理效率,并较大程度地改善偏移成像的质量。
By applying this technique, we can decrease the time of seismic data processing, improved the processing efficiency and more significantly improve the quality of migra...
为此,开展了地震资料一致性处理方法研究。在总结当前一致性处理方法的基础上,详细阐述了互均衡处理技术的方法原理。
Based on advantages and shortages for present consistent processing methods of seismic data, this paper dis - cussed the principle of cross-equalization processing in DE - tail.
为此,开展了地震资料一致性处理方法研究。在总结当前一致性处理方法的基础上,详细阐述了互均衡处理技术的方法原理。
Based on advantages and shortages for present consistent processing methods of seismic data, this paper dis - cussed the principle of cross-equalization processing in DE - tail.
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