Toward generalized models for machine-learning-assisted salt interpretation in the Gulf of Mexico

Q2 Earth and Planetary Sciences

Leading Edge Pub Date : 2023-06-01 DOI:10.1190/tle42060390.1

Cable Warren, Sribharath Kainkaryam, Ben Lasscock, Altay Sansal, Sanath Govindarajan, A. Valenciano

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引用次数: 0

Abstract

Interpreting salt bodies in the Gulf of Mexico (GoM) can be complex due to various factors affecting the accuracy of automated techniques. Variability of salt structures, seismic acquisition parameters, and imaging algorithms can impact the resulting seismic image. These differences can result in variations in seismic resolution and texture, making it challenging to develop automated interpretation techniques that are accurate and reliable for identifying salt bodies in the GoM. However, using seismic images with similar acquisition parameters and processing methods minimizes these differences and makes machine-learning (ML) models applicable. Utilizing nine data sets from the eastern GoM, a nine-fold cross-validation technique was applied to measure the generalization performance of the ML model. This method involves using one data set as the test set and the remaining eight for training and repeating the process for all subsets. We further applied an ensemble of the nine models to predict salt on a new unseen survey in Green Canyon. The study aimed to illustrate how salt variability and morphology in the GoM can impact the ability of the ML algorithm to predict salt bodies on unseen data.

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墨西哥湾机器学习辅助盐解释的广义模型

由于影响自动化技术准确性的各种因素，解释墨西哥湾（GoM）的盐体可能很复杂。盐结构、地震采集参数和成像算法的可变性会影响生成的地震图像。这些差异可能导致地震分辨率和质地的变化，这使得开发准确可靠的自动解释技术来识别GoM中的盐体具有挑战性。然而，使用具有相似采集参数和处理方法的地震图像可以最大限度地减少这些差异，并使机器学习（ML）模型适用。利用来自东部GoM的九个数据集，应用九重交叉验证技术来测量ML模型的泛化性能。该方法包括使用一个数据集作为测试集，其余八个数据集用于训练，并对所有子集重复该过程。我们在绿峡谷的一项新的未知调查中进一步应用了九个模型的集合来预测盐。该研究旨在说明GoM中的盐变异性和形态如何影响ML算法在看不见的数据上预测盐体的能力。

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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来源期刊

Leading Edge Earth and Planetary Sciences-Geology

CiteScore

3.10

自引率

0.00%

发文量

180

期刊介绍： THE LEADING EDGE complements GEOPHYSICS, SEG"s peer-reviewed publication long unrivalled as the world"s most respected vehicle for dissemination of developments in exploration and development geophysics. TLE is a gateway publication, introducing new geophysical theory, instrumentation, and established practices to scientists in a wide range of geoscience disciplines. Most material is presented in a semitechnical manner that minimizes mathematical theory and emphasizes practical applications. TLE also serves as SEG"s publication venue for official society business.