Unsupervised contrastive learning: Shale porosity prediction based on conventional well logging

Lu Qiao, Shengyu Yang, Qinhong Hu, Huijun Wang, Taohua He
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Abstract

Porosity is a pivotal factor affecting the capacity for storage and extraction in shale reservoirs. The paucity of labeled data in conventional well logs interpretation and supervised learning models leads to inadequate generalization and diminished prediction accuracy, thus limiting their effectiveness in precise porosity evaluation. This study introduces a contrastive learning – convolutional neural network (CL-CNN) framework that utilizes CL for pretraining on a vast array of unlabeled data, followed by fine-tuning using a traditional CNN on a curated set of labeled data. Applied to the Subei Basin in Eastern China, the framework was tested on 130 labeled data and 2576 unlabeled data points from well H1. The results indicate that the CL-CNN framework outperforms traditional CNN-based supervised learning and other machine learning models in terms of prediction accuracy for the dataset under consideration. Furthermore, it demonstrates the potential for extensive porosity assessment across different logged depths. Due to its efficacy and ease of use, the proposed framework is versatile enough for application in reservoir evaluation, engineering development, and related fields. The innovative contribution of this research is encapsulated in its unique methodology and procedural steps for the accurate prediction of shale reservoir porosity, thus significantly enriching the existing body of knowledge in this domain.
无监督对比学习:基于常规测井的页岩孔隙度预测
孔隙度是影响页岩储层存储和开采能力的关键因素。传统的测井解释和监督学习模型缺乏标注数据,导致泛化不足和预测精度降低,从而限制了其在精确孔隙度评估中的有效性。本研究介绍了一种对比学习-卷积神经网络(CL-CNN)框架,该框架利用卷积神经网络对大量未标注数据进行预训练,然后利用传统的卷积神经网络对经过筛选的标注数据集进行微调。该框架应用于中国东部的苏北盆地,对来自 H1 井的 130 个标记数据和 2576 个未标记数据点进行了测试。结果表明,CL-CNN 框架在数据集的预测准确性方面优于基于 CNN 的传统监督学习和其他机器学习模型。此外,它还展示了在不同测井深度进行广泛孔隙度评估的潜力。由于其高效性和易用性,所提出的框架可广泛应用于储层评估、工程开发和相关领域。这项研究的创新性贡献体现在其准确预测页岩储层孔隙度的独特方法和程序步骤上,从而极大地丰富了该领域的现有知识体系。
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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