Unilateral Alignment: An interpretable machine learning method for geophysical logs calibration

Wenting Zhang , Jichen Wang , Kun Li , Haining Liu , Yu Kang , Yuping Wu , Wenjun Lv
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引用次数: 3

Abstract

Most of the existing machine learning studies in logs interpretation do not consider the data distribution discrepancy issue, so the trained model cannot well generalize to the unseen data without calibrating the logs. In this paper, we formulated the geophysical logs calibration problem and give its statistical explanation, and then exhibited an interpretable machine learning method, i.e., Unilateral Alignment, which could align the logs from one well to another without losing the physical meanings. The involved UA method is an unsupervised feature domain adaptation method, so it does not rely on any labels from cores. The experiments in 3 wells and 6 tasks showed the effectiveness and interpretability from multiple views.

单侧对准:地球物理测井校正的可解释机器学习方法
现有的测井解释中的机器学习研究大多没有考虑数据分布差异问题,因此在不校准测井数据的情况下,训练出的模型不能很好地泛化到未见数据。本文提出了地球物理测井标定问题,并给出了统计解释,提出了一种可解释的机器学习方法——单侧对准,该方法可以在不丢失物理意义的情况下将测井资料从一口井对准到另一口井。所涉及的UA方法是一种无监督特征域自适应方法,因此它不依赖于任何来自核心的标签。3口井和6个任务的实验从多个角度证明了该方法的有效性和可解释性。
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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