Litcius/Paper detail

MTL-FaultNet: Seismic Data Reconstruction Assisted Multitask Deep Learning 3-D Fault Interpretation

Weihua Wu, Yang Yang, Bangyu Wu, Debo Ma, Zhanxin Tang, Xia Yin

2023IEEE Transactions on Geoscience and Remote Sensing30 citationsDOI

Abstract

Seismic fault interpretation is of extraordinary significant for hydrocarbon reservoir characterization and drilling hazard mitigation. In recent years, deep learning-based seismic fault detection methods have been conducted actively. Considering efficiency and fault prediction consistency, the most appealing way is to train a 3D segmentation network using synthetic seismic data with ground truth fault structure. However, the differences in signal-to-noise ratio, resolution, and fault strike distribution between synthetic and real data, can lead to inconsistent and unreliable prediction results. In this paper, we propose a multi-task deep learning-based seismic fault detection method, which takes seismic fault detection as the main task and 3D seismic data reconstruction as the auxiliary task, named MTL-FaultNet. The auxiliary branch can provide suggestive information to the main branch thereby improving its performance. We also designed two levels of multi-scale modules and embedded attention mechanisms in the network, so as to improve the network’s ability to focus on multi-scale fault features and learn stable fault structures. Different weights are assigned to the loss for different tasks, with large and small weights on the main and the auxiliary branch respectively. We apply the proposed method to Netherlands offshore F3 seismic data and a land field seismic data collected from Tarim Basin with mainly strike-slip faults, and Poseidon 3D seismic data. The proposed fault detection method is experimentally demonstrated on the improved network generalization and achieves reliable fault interpretation on field seismic data.

Topics & Concepts

Fault (geology)Deep learningSeismologyComputer scienceSegmentationGeologyArtificial intelligenceSeismic Imaging and Inversion TechniquesDrilling and Well EngineeringReservoir Engineering and Simulation Methods