Journal of Jilin University(Earth Science Edition) ›› 2023, Vol. 53 ›› Issue (5): 1593-1601.doi: 10.13278/j.cnki.jjuese.20220251

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Eliminating Low-Frequency Noise in Reverse-Time Migration Based on DeCNN

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Wan Xiaojie, Gong Xiangbo, Cheng Qiao, Yu Minghao   

  1. College of GeoExploration Science and Technology,Jilin University,Changchun 130026, China
  • Online:2023-09-26 Published:2023-10-31
  • Supported by:
    Supported by the National Natural Science Foundation of China (42074151) and the Key Research and Development Project of Guangxi (Guike AB21196028)

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Abstract:

Reverse-time migration (RTM) is widely employed for its ability to produce high-resolution imaging results. Nevertheless, wavefield extrapolation based on the two-way wave equation often leads to pronounced low-frequency noise under cross-correlation imaging condition. This issue significantly impacts the quality of the resulting images. In this study, we introduce a convolution-deconvolution neural network (DeCNN) built upon the U-Net architecture to mitigate the presence of low-frequency noise in RTM. We utilize source-normalized imaging results with  low-frequency noise as training data, and the Laplace filtering results   as labels to abtain  the neural network model, grounded in a data-driven approach. The comparison results of   model trials and transfer learning demonstrations highlight the superior denoising proficiency of  DeCNN. It outperforms  U-Net, effectively suppressing noise in scenarios such as the transfer  SEG/EAGE standard salt dome model and  Marmousi model. In contrast to conventional techniques aimed at mitigating low-frequency noise through up and down traveling wave decomposition, DeCNN  can input the source-normalized imaging results into the network after training, and the network can output high resolution imaging results in seconds. The efficiency is much higher than that of conventional low-frequency noise suppression methods using wavefield decomposition, and it has certain advantages in noise suppression effect.


Key words: neural networks, convolution-deconvolution, reverse-time migration, low-frequency noise, filtering, wavefield decomposition

CLC Number: 

  • P631.4
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