Automatic Fault Segmentation Using Wavelet Convolutional Neural Networks

Xu Zhou, Qishuai Yin, Bin Wang
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Abstract

This study presents a novel neural network model to explore its application in automatically interpreting subsurface faults from seismic images. A Wavelet Convolutional Neural Network (CNN) model that incorporates discrete wavelet decomposition is presented, and its capability in segmenting subsurface faults is analyzed. In this study, different neural network models are developed to compare their performance in segmenting subsurface faults. Sliced 2D seismic images are used as the input of the models. Pre-interpreted images with fault locations are used as the output of the models. Different CNN models are created using different pooling methods, including a traditional U-Net model with average pooling method, and an advanced Wavelet CNN model using wavelet pooling method. The results show that the Wavelet CNN model, which incorporates discrete wavelet transformation as the pooling layer, has the best performance comparing to traditional models in segmenting subsurface faults from input seismic images. It is more effective in saving edge features during pooling operations and outperforms the traditional U-Net model in segmenting subsurface faults from seismic images.
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基于小波卷积神经网络的故障自动分割
本文提出了一种新的神经网络模型,探索其在地震图像地下断层自动解释中的应用。提出了一种结合离散小波分解的小波卷积神经网络(CNN)模型,并分析了其对地下断层的分割能力。在本研究中,建立了不同的神经网络模型,比较了它们在地下断层分割中的性能。采用二维地震图像切片作为模型输入。带有故障位置的预解释图像被用作模型的输出。采用不同的池化方法建立了不同的CNN模型,包括采用平均池化方法的传统U-Net模型和采用小波池化方法的高级小波CNN模型。结果表明,将离散小波变换作为池化层的小波CNN模型在从输入地震图像中分割地下断层方面,比传统模型具有更好的性能。该方法在池化过程中更有效地保存了边缘特征,并且在从地震图像中分割地下断层方面优于传统的U-Net模型。
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