MULTIPLE ATTENUATION USING PREDICTIVE TAU-P DECONVOLUTION AND PARABOLIC RADON TRANSFORM
Multiples is a seismic wave that reflected more that once before returns to the surface and <br /> <br /> recorded by receivers (1995. Uren, Norman). Multiples become problems in seismic section, because it <br /> <br /> tend to interfere primary reflection signals and can be...
Saved in:
| Main Author: | |
|---|---|
| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/20845 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Multiples is a seismic wave that reflected more that once before returns to the surface and <br />
<br />
recorded by receivers (1995. Uren, Norman). Multiples become problems in seismic section, because it <br />
<br />
tend to interfere primary reflection signals and can be mistaken for primary reflection events. <br />
<br />
Several method have been developed to attenuate multiples. Some of them are Predictive Tau-P <br />
<br />
Deconvolution and Parabolic Radon Transform. Predictive Tau-P Deconvolution (Tau-P Deconvolution <br />
<br />
in short) using transformation of seismic data from T-X (two way time-offset) domain into Tau-P <br />
<br />
(intercept time-ray parameter) domain. The predictive deconvolution are used in Tau-P domain and then <br />
<br />
the data are inverted back to T-X domain. Parabolic radon transform using transformation of seismic data <br />
<br />
from T-X (two way time-offset) domain into Tau-P (intercept time-moveout parameter) domain. The <br />
<br />
input for Parabolic Radon Transform are NMO corrected gather, and the transformation itself was done <br />
<br />
by using moveout correction parameter. In Radon domain, multiples are attenuated and the data after <br />
<br />
multiple attenuation are inverted back to T-X domain. <br />
<br />
In this final project, multiple attenuation using Predictive Tau-P Deconvolution and Parabolic <br />
<br />
Radon Transform was done to real 2D marine seismic data. Combination of these two method was <br />
<br />
success to attenuate long and short period multiples. As for the evaluation, Tau-P Deconvolution became <br />
<br />
less effective when attenuating short period multiples from dipping reflector. |
|---|