DEVELOPMENT AND IMPLEMENTATION OF SOURCE INDEPENDENT FULL WAVEFORM INVERSION (SI-FWI): A SYNTHETIC CASE STUDY
Source Independent Full Waveform Inversion (SI-FWI) is a seismic imaging method that uses the entire seismic waveform contained within the seismogram. It addresses the challenge of dependency on wavelet sources during the velocity model reconstruction process. In SI-FWI, inaccuracies or errors in...
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id-itb.:777672023-09-14T07:47:15ZDEVELOPMENT AND IMPLEMENTATION OF SOURCE INDEPENDENT FULL WAVEFORM INVERSION (SI-FWI): A SYNTHETIC CASE STUDY Diva Pratama, Muhamad Indonesia Final Project full waveform inversion, source independent, conjugate gradient. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/77767 Source Independent Full Waveform Inversion (SI-FWI) is a seismic imaging method that uses the entire seismic waveform contained within the seismogram. It addresses the challenge of dependency on wavelet sources during the velocity model reconstruction process. In SI-FWI, inaccuracies or errors in wavelet source information are mitigated by modifying the calculation of misfit and adjoint sources used in the adjoint modeling process. This modification involves convolving the seismic trace between the observed and modeled seismogram data, without altering the fundamental FWI algorithm. Consequently, the SI-FWI method becomes less reliant on wavelet sources. In this study, SI-FWI was implemented and tested on a synthetic acoustic and isotropic overthrust model. The iteration process was conducted through optimization using the conjugate gradient method and a line search algorithm, which facilitated faster and more effective convergence. The program was developed in Python and executed parallel and distributed processing to expedite program execution. Two scenarios were considered in this study, each utilizing different wavelet sources. The results obtained in both cases have reduced the misfit value significantly. In both instances, the resulting models closely matched the actual model. This was further confirmed by the 1D velocity profile analysis at different locations, which closely approximated the velocity profile of the actual model. Based on these results, this study demonstrates the capability of the SI-FWI program to eliminate the effect of wavelet sources, removing its dependence on the suitability of wavelet sources within the SI-FWI framework. text |
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Indonesia Indonesia |
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Indonesia |
| description |
Source Independent Full Waveform Inversion (SI-FWI) is a seismic imaging
method that uses the entire seismic waveform contained within the seismogram. It
addresses the challenge of dependency on wavelet sources during the velocity
model reconstruction process. In SI-FWI, inaccuracies or errors in wavelet source
information are mitigated by modifying the calculation of misfit and adjoint sources
used in the adjoint modeling process. This modification involves convolving the
seismic trace between the observed and modeled seismogram data, without altering
the fundamental FWI algorithm. Consequently, the SI-FWI method becomes less
reliant on wavelet sources. In this study, SI-FWI was implemented and tested on a
synthetic acoustic and isotropic overthrust model. The iteration process was
conducted through optimization using the conjugate gradient method and a line
search algorithm, which facilitated faster and more effective convergence. The
program was developed in Python and executed parallel and distributed processing
to expedite program execution. Two scenarios were considered in this study, each
utilizing different wavelet sources. The results obtained in both cases have reduced
the misfit value significantly. In both instances, the resulting models closely
matched the actual model. This was further confirmed by the 1D velocity profile
analysis at different locations, which closely approximated the velocity profile of
the actual model. Based on these results, this study demonstrates the capability of
the SI-FWI program to eliminate the effect of wavelet sources, removing its
dependence on the suitability of wavelet sources within the SI-FWI framework. |
| format |
Final Project |
| author |
Diva Pratama, Muhamad |
| spellingShingle |
Diva Pratama, Muhamad DEVELOPMENT AND IMPLEMENTATION OF SOURCE INDEPENDENT FULL WAVEFORM INVERSION (SI-FWI): A SYNTHETIC CASE STUDY |
| author_facet |
Diva Pratama, Muhamad |
| author_sort |
Diva Pratama, Muhamad |
| title |
DEVELOPMENT AND IMPLEMENTATION OF SOURCE INDEPENDENT FULL WAVEFORM INVERSION (SI-FWI): A SYNTHETIC CASE STUDY |
| title_short |
DEVELOPMENT AND IMPLEMENTATION OF SOURCE INDEPENDENT FULL WAVEFORM INVERSION (SI-FWI): A SYNTHETIC CASE STUDY |
| title_full |
DEVELOPMENT AND IMPLEMENTATION OF SOURCE INDEPENDENT FULL WAVEFORM INVERSION (SI-FWI): A SYNTHETIC CASE STUDY |
| title_fullStr |
DEVELOPMENT AND IMPLEMENTATION OF SOURCE INDEPENDENT FULL WAVEFORM INVERSION (SI-FWI): A SYNTHETIC CASE STUDY |
| title_full_unstemmed |
DEVELOPMENT AND IMPLEMENTATION OF SOURCE INDEPENDENT FULL WAVEFORM INVERSION (SI-FWI): A SYNTHETIC CASE STUDY |
| title_sort |
development and implementation of source independent full waveform inversion (si-fwi): a synthetic case study |
| url |
https://digilib.itb.ac.id/gdl/view/77767 |
| _version_ |
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