Accounting for seismic radiation anisotropy in Bayesian survey designs

Pub Date : 2016-01-01 DOI:10.15233/GFZ.2016.33.1
M. Khodja, M. Prange, H. Djikpesse
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Abstract

The seismic radiation patterns associated with probing the earth’s subsurface are essentially anisotropic due to its ubiquitous stratified structure. This anisotropy seriously complicates formation imaging and data acquisition. This is most salient for deep-water subsalt reservoirs. Traditionally, point scatterers with isotropic radiation patterns are used in migration imaging, but in the survey design problem, these might lead to design errors caused by receivers being placed in poor locations with respect to the radiation pattern of the scattering structure. Here, we extend a framework which accounts for anisotropy in the scattered radiation for optimal geophysical survey design purposes. The propagation medium is assumed to be attenuative. The locally dipping interfaces are modeled as a discrete set of finite-size planar scattering elements. The general elastodynamic expressions for the sensitivity kernels, i.e., the vectors which mathematically represent the candidate observations, in the presence of the scattering elements are provided. The size of each element controls the width of its radiation pattern, which may in turn be used to characterize the uncertainty on the dip angle, thus complementing the information provided by the model-parameter uncertainties and ultimately leading to better geophysical survey designs.
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贝叶斯勘探设计中地震辐射各向异性的计算
由于其普遍存在的分层结构,与探测地球地下有关的地震辐射模式本质上是各向异性的。这种各向异性严重复杂化了地层成像和数据采集。这在深水盐下储层中最为突出。传统上,偏移成像采用各向同性辐射方向图的点散射体,但在测量设计问题中,由于接收机的位置相对于散射结构的辐射方向图较差,可能导致设计误差。在这里,我们扩展了一个考虑散射辐射各向异性的框架,以实现最佳的地球物理调查设计目的。假定传播介质是衰减的。将局部倾斜界面建模为有限尺寸平面散射单元的离散集合。给出了在散射元素存在的情况下,灵敏度核的一般弹性动力学表达式,即在数学上表示候选观测值的向量。每个元素的大小控制着其辐射模式的宽度,这反过来又可以用来表征倾角的不确定性,从而补充模型参数不确定性提供的信息,并最终导致更好的地球物理调查设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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