Intelligent geological interpretation of AMT data based on machine learning

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-06-13 DOI:10.1016/j.bdr.2024.100475
Shuo Wang , Xiang Yu , Dan Zhao , Guocai Ma , Wei Ren , Shuxin Duan
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Abstract

AMT (Audio Magnetotelluric) is widely used for obtaining geological settings related to sandstone-type Uranium deposits, such as the range of buried sand body and the top boundary of baserock. However, these geological settings are hard to interpret via survey sections without conducting geological interpretation, which highly relies on experience and cognition. On the other hand, with the development of 3D technology, artificial geological interpretation shows low efficiency and reliability. In this paper, a machine learning model constructed using U-net was used for the geological interpretation of AMT data in the Naren-Yihegaole area. To train the model, a training dataset was built based on simulated data from random models. The issue of insufficient data samples has been addressed. In the prediction stage, sand bodies and baserock were delineated from the inversion resistivity images. The comparison between two interpretations, one by machine learning method, showed high consistency with the artificial one, but with better time-saving. It indicates that this technology is more individualized and effective than the traditional way.

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基于机器学习的 AMT 数据智能地质解释
AMT(音频磁法)被广泛用于获取与砂岩型铀矿床相关的地质环境,如砂体埋藏范围和基岩顶界。然而,如果不进行地质解释,就很难通过勘测断面解释这些地质环境,而地质解释在很大程度上依赖于经验和认知。另一方面,随着三维技术的发展,人工地质解释的效率和可靠性都很低。本文利用 U-net 构建了一个机器学习模型,用于那仁-义合高勒地区 AMT 数据的地质解释。为了训练该模型,根据随机模型的模拟数据建立了一个训练数据集。数据样本不足的问题已得到解决。在预测阶段,根据反演电阻率图像划分了砂体和基岩。对两种解释进行了比较,其中一种解释采用了机器学习方法,结果显示与人工解释高度一致,但更节省时间。这表明该技术比传统方法更加个性化和有效。
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CiteScore
7.20
自引率
4.30%
发文量
567
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