Denoising Seismic Signal via Resampling Local Applicability Functions
Department
Electrical and Computer Engineering
Document Type
Article
Publication Date
1-1-2022
Abstract
We propose a novel seismic signal processing approach to efficiently and effectively attenuate seismic random noises. The proposed approach is a generalized seismic noise attenuation solution that can be applied to typical denoising operators. Our work has two main contributions. First, conventional filtering operators 'regularize' the denoised results through the operator design. However, as seismic data have strong nonstationarity, it is inevitable to remove certain signal components. The resampling mechanism alleviates the signal loss. Second, the resampling operation does not require a lot of parameter tuning, which improves the denoising efficiency. Using the proposed approach, compared with existing denoising operators, the intrinsic seismic signal components are better recovered since random noise has been suppressed. Synthetic example and field data applications quantitatively and qualitatively demonstrate excellent performances of the proposed approach.
Journal Title
IEEE Geoscience and Remote Sensing Letters
Journal ISSN
1545598X
Volume
19
Digital Object Identifier (DOI)
10.1109/LGRS.2020.3048110