Seismic Linear Noise Attenuation with Use of Radial Transform

One of the goals of seismic data processing is to attenuate the recorded noise in order to enable correct interpretation of the image. Radial transform has been used as a very effective tool in the attenuation of various types of linear noise, both numerical and real (such as ground roll, direct wav...

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Bibliographic Details
Main Author: Szymańska-Małysa, Żaneta
Format: Conference Proceeding
Language:English
Subjects:
Artefacts
Attenuation
Bandpass filters
Data processing
Frequencies
Mathematical models
Migration
Noise
noise attenuation
Noise reduction
Power spectra
radial transform
Rayleigh waves
Scaling
seismic
Seismic activity
Seismic waves
Velocity
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Summary:One of the goals of seismic data processing is to attenuate the recorded noise in order to enable correct interpretation of the image. Radial transform has been used as a very effective tool in the attenuation of various types of linear noise, both numerical and real (such as ground roll, direct waves, head waves, guided waves etc). The result of transformation from offset – time (X – T) domain into apparent velocity – time (R – T) domain is frequency separation between reflections and linear events. In this article synthetic and real seismic shot gathers were examined. One example was targeted at far offset area of dataset where reflections and noise had similar apparent velocities and frequency bands. Another example was a result of elastic modelling where linear artefacts were produced. Bandpass filtering and scaling operation executed in radial domain attenuated all discussed types of linear noise very effectively. After noise reduction all further processing steps reveal better results, especially velocity analysis, migration and stacking. In all presented cases signal-to-noise ratio was significantly increased and reflections covered previously by noise were revealed. Power spectra of filtered seismic records preserved real dynamics of reflections.
ISSN:2267-1242
2555-0403
2267-1242
DOI:10.1051/e3sconf/20183503003