Digital Rock Segmentation for Petrophysical Analysis With Reduced User Bias Using Convolutional Neural Networks
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Niu, Yufu
Mostaghimi, Peyman
Shabaninejad, Mehdi
Swietojanski, Pawel
Armstrong, Ryan
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American Geophysical Union
Abstract
Pore‐scale digital images are usually obtained from microcomputed tomography data that has been segmented into void and grain space. Image segmentation is a crucial step in the process of digital rock analysis that can influence pore‐scale characterization studies and/or the numerical simulation of petrophysical properties. This is concerning since all segmentation methods have user‐selected parameters that result in biases. Convolutional neural networks (CNNs) provide a way forward since once trained,
CNN can provide consistent and reliable image segmentation with no user‐defined inputs. In this paper, a CNN is used to segment digital sandstone data, and various ground truth data sets are tested. The ground truth images are created based on high‐resolution microcomputed tomography data and corresponding
scanning electron microscope data. The results are evaluated in terms of porosity, permeability, and pore size distribution computed from the segmented data. We find that watershed‐based segmentation provides a wide range of possible petrophysical values depending on user‐selected thresholds, whereas CNN provides a smaller variance when trained on scanning electron microscope data. It can be concluded that
CNN offers a reliable and consistent way to segment digital sandstone data for petrophysical analyses
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Water Resources Research
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Open Access