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Augmented deep learning workflow for robust fault prediction over multiple tectonic regimes
Journal of Geophysics and Engineering ( IF 1.4 ) Pub Date : 2022-08-29 , DOI: 10.1093/jge/gxac056 Haidong Chen 1 , Dazhen Tang 1 , Ying Liu 2 , Hongtao Gu 3 , Cunjian Zhou 4
Journal of Geophysics and Engineering ( IF 1.4 ) Pub Date : 2022-08-29 , DOI: 10.1093/jge/gxac056 Haidong Chen 1 , Dazhen Tang 1 , Ying Liu 2 , Hongtao Gu 3 , Cunjian Zhou 4
Affiliation
Over the past decade, deep learning frameworks such as convolutional neural networks (CNNs) have made major research inroads in upstream oil and gas, with applications in seismic processing/imaging, velocity model building, petrophysics, geological seismic interpretation, all the way to development, production and supply chain logistics. CNN fault prediction centers around the idea of image edge detection and, for improved prediction results, three data-driven steps are recommended. First, pre-condition the seismic data to increase signal-to-noise ratio as much as possible: iterative dip-steered median filtering and principal component filtering are adopted to further improve signal-to-noise ratio and sharpness for edge detection. Second, a fault probability volume obtained through deep learning (DL) -based fault detection using a U-Net architecture, taking synthetic seismic models as samples that can improve DL-based fault prediction in lieu of readily available labeled fault sets that may be prohibitively time-consuming to generate. Finally, edge enhancement is performed on the inference results to improve precision and fault continuity. A comparative analysis between related edge enhancement technologies is also presented. Results for three different faulting modes (normal, reverse and strike-slip) over three real seismic field data sets from China demonstrate the robustness of the proposed workflow.
更新日期:2022-08-29
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