基于数据驱动的地表一致折射方法在沙漠复杂地质场景中的应用

Second EAGE/PESGB Workshop on Velocities Pub Date : 2019-04-04 DOI:10.3997/2214-4609.201900048

D. Rovetta, D. Colombo, A. Kontakis, E. S. Curiel

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引用次数: 0

摘要

在地球物理勘探中，沙漠环境往往具有复杂地质构造影响地震成像的特点。在这些复杂的系统中，地球物理反演具有高度的非唯一性或对目标的可变敏感性，需要一个好的速度模型构建工具来处理。我们通过使用最近开发的自动和数据驱动的表面一致折射方法来解决这个问题。所开发的方法侧重于折射到达的相位(pQC)和振幅(aQC)分析。我们成功地将该方法应用于许多三维陆地和海洋地震数据集。以陆地为例，我们展示了一个突出的河道的结果。另一个例子与以盐和由蒸发沉积物和碎屑沉积物组成的蒸发层序为特征的海洋获取有关。

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Application of an Automatic and Data-driven Surface-consistent Refraction Method to Complex Geology Scenarios in Desert Environment

Summary Desert environments are often characterized by areas with complex geological structures affecting seismic imaging in geophysical exploration. A good velocity model building tool is needed to deal with these difficult systems where geophysical inversion is affected by high non uniqueness or variable sensitivity to the targets. We approach this problem by making use of a recently developed automatic and data-driven surface-consistent refraction method. The developed method is focusing on the analysis of phases (pQC) and amplitudes (aQC) of refracted arrivals. We successfully applied the methodology to many 3D land and marine seismic datasets. As a land example, we show the results for a prominent wadi. Another example is related to marine acquisitions characterized by salt and evaporitic sequences composed of evaporitic and clastic sediments.

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Second EAGE/PESGB Workshop on Velocities

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