Applied Sciences (May 2024)

Semi-Supervised Training for (Pre-Stack) Seismic Data Analysis

  • Edgar Ek-Chacón,
  • Erik Molino-Minero-Re,
  • Paul Erick Méndez-Monroy,
  • Antonio Neme,
  • Hector Ángeles-Hernández

DOI
https://doi.org/10.3390/app14104175
Journal volume & issue
Vol. 14, no. 10
p. 4175

Abstract

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A lack of labeled examples is a problem in different domains, such as text and image processing, medicine, and static reservoir characterization, because supervised learning relies on vast volumes of these data to perform successfully, but this is quite expensive. However, large amounts of unlabeled data exist in these domains. The deep semi-supervised learning (DSSL) approach leverages unlabeled data to improve supervised learning performance using deep neural networks. This approach has succeeded in image recognition, text classification, and speech recognition. Nevertheless, there have been few works on pre-stack seismic reservoir characterization, in which knowledge of rock and fluid properties is fundamental for oil exploration. This paper proposes a methodology to estimate acoustic impedance using pre-stack seismic data and DSSL with a recurrent neural network. The few labeled datasets for training were pre-processed from raw seismic and acoustic impedance data from five borehole logs. The results showed that the acoustic impedance estimation at the well location and outside it was better predicted by the DSSL compared to the supervised version of the same neural network. Therefore, employing a large amount of unlabeled data can be helpful in the development of seismic data interpretation systems.

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