Applied Sciences (Oct 2023)

Microseismic Data-Direct Velocity Modeling Method Based on a Modified Attention U-Net Architecture

  • Yixiu Zhou,
  • Liguo Han,
  • Pan Zhang,
  • Jingwen Zeng,
  • Xujia Shang,
  • Wensha Huang

DOI
https://doi.org/10.3390/app132011166
Journal volume & issue
Vol. 13, no. 20
p. 11166

Abstract

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In microseismic monitoring, the reconstruction of a reliable velocity model is essential for precise seismic source localization and subsurface imaging. However, traditional methods for microseismic velocity inversion face challenges in terms of precision and computational efficiency. In this paper, we use deep learning (DL) algorithms to achieve precise and efficient real-time microseismic velocity modeling, which holds significant importance for ensuring engineering safety and preventing geological disasters in microseismic monitoring. Given that this task was approached as a non-linear regression problem, we adopted and modified the Attention U-Net network for inversion. Depending on the degree of coupling among microseismic events, we trained the network using both single-event and multi-event simulation records as feature datasets. This approach can achieve velocity modeling when dealing with inseparable microseismic records. Numerical tests demonstrate that the Attention U-Net can automatically uncover latent features and patterns between microseismic records and velocity models. It performs effectively in real time and achieves high precision in velocity modeling for Tilted Transverse Isotropy (TTI) velocity structures such as anticlines, synclines, and anomalous velocity models. Furthermore, it can provide reliable initial models for traditional methods.

Keywords