On the role of diffractions in velocity model building: a full-waveform inversion example

IF 0.5 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS Studia Geophysica et Geodaetica Pub Date : 2019-09-05 DOI:10.1007/s11200-019-0733-6
Sergius Dell, Ivan Abakumov, Pavel Znak, Dirk Gajewski, Boris Kashtan, Andrey Ponomarenko
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引用次数: 3

Abstract

Imaging of small-scale heterogeneities is important for the geological exploration in complex environments. It requires a processing sequence tuned to high-resolution model building. Conventional methods which use refractions or reflections might face problems in resolving small-scale features since they are visually close to the resolution of the reflection images. Additional information or an unconventional technology, which supports the reflection imaging, is thus of great interest. An unconventional method based on seismic diffractions naturally complements specular reflection imaging. Diffracted waves represent a direct seismic response from small-scale subsurface heterogeneities, such as inclusions with a characteristic size of the prevailing wavelength, or discontinuities in geological interfaces, such as faults and fractures. We investigate the rule of diffracted part of the wavefield on velocity model building using a full-waveform inversion (FWI) example. In order to best acknowledge refracted and reflected parts of the wavefield in FWI, we chose a synthetic data example which mimics the ocean-bottom nodes acquisition survey as it provides almost perfect conditions for FWI of diving waves, a standard tool for high-resolution model building. We show, that FWI using diving waves produces a well-resolved anomaly. Including other part of the wavefield, reflected waves, further improves the resolution of the velocity anomaly but also leads to a gentle overfitting due to missing illumination from the very steep anomaly flanks. Considering diffracted events in FWI improves the model resolution even further resulting in a detailed velocity model and correctly imaged anomaly in both vertical and lateral directions.

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关于衍射在速度模型建立中的作用:一个全波形反演的例子
小尺度非均质成像对于复杂环境下的地质勘探具有重要意义。它需要一个调整到高分辨率模型构建的处理序列。使用折射或反射的传统方法在解决小尺度特征时可能会遇到问题,因为它们在视觉上接近反射图像的分辨率。因此,支持反射成像的额外信息或非常规技术引起了极大的兴趣。一种基于地震衍射的非常规方法自然地补充了镜面反射成像。绕射波代表了小规模地下非均质性的直接地震响应,例如具有普遍波长特征尺寸的包裹体,或地质界面中的不连续面,例如断层和裂缝。我们用一个全波形反演(FWI)的例子研究了波场衍射部分在速度模型建立中的规律。为了最好地识别FWI中波场的折射和反射部分,我们选择了一个模拟海底节点采集调查的合成数据示例,因为它为潜水波的FWI提供了几乎完美的条件,这是一个高分辨率模型构建的标准工具。我们发现,利用潜水波的FWI产生了一个很好的解决异常。包括波场的其他部分,反射波,进一步提高了速度异常的分辨率,但也会导致温和的过拟合,因为缺少来自非常陡峭的异常侧翼的照明。在FWI中考虑衍射事件可以进一步提高模型分辨率,从而获得详细的速度模型,并在垂直和横向方向上正确成像异常。
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来源期刊
Studia Geophysica et Geodaetica
Studia Geophysica et Geodaetica 地学-地球化学与地球物理
CiteScore
1.90
自引率
0.00%
发文量
8
审稿时长
6-12 weeks
期刊介绍: Studia geophysica et geodaetica is an international journal covering all aspects of geophysics, meteorology and climatology, and of geodesy. Published by the Institute of Geophysics of the Academy of Sciences of the Czech Republic, it has a long tradition, being published quarterly since 1956. Studia publishes theoretical and methodological contributions, which are of interest for academia as well as industry. The journal offers fast publication of contributions in regular as well as topical issues.
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