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- Title
Application of 2D Variational Mode Decomposition Method in Seismic Signal Denoising.
- Authors
Chao Liu; Ziang Wang; Yaping Huang; Aiping Zeng; Hongming Fan
- Abstract
Seismic data are typical nonlinear and nonstationary data. In the acquisition and processing of seismic data, many factors interfere with it. Seismic data contain both effective waves and random noises, seriously affecting the quality of seismic data and not conducive to the goal of fine interpretation of subsequent seismic data. Therefore, studying new seismic data denoising methods is beneficial for improving the quality of seismic data and plays a very important role in subsequent seismic data interpretation. In this paper, the principle of variational mode decomposition (VMD) and 2D-VMD is introduced in detail, and the seismic profile with a simple signal and fault model is denoised. Compared to traditional empirical mode decomposition (EMD), the 2D-VMD method has the best seismic data denoising effect. The test results of the synthesised signal show that the 2D-VMD method has a signal-to-noise ratio of 47.14 dB after denoising, which is higher than the signal-to-noise ratio after EMD and VMD denoising, indicating that it has a better denoising effect. The VMD and 2D-VMD methods are applied to the denoising of actual seismic data. The application results show that the 2D-VMD method can effectively improve the quality of the seismic data, enhance the continuity and reliability of the seismic data, and is conducive to the fine interpretation of subsequent seismic data.
- Subjects
SIGNAL denoising; HILBERT-Huang transform; SIGNAL-to-noise ratio; RANDOM noise theory; DECOMPOSITION method; VARIATIONAL principles
- Publication
Electronics & Electrical Engineering, 2024, Vol 30, Issue 2, p46
- ISSN
1392-1215
- Publication type
Article
- DOI
10.5755/j02.eie.36100