Copyright © 2006 Society of Exploration Geophysicists In this paper, we investigate several source-independent methods of nonlinear full-waveform inversion of multicomponent elastic-wave data. This includes iterative estimation of source signature (IES), standard trace normalization (STN), and average trace normalization (ATN) inversion methods. All are based on the finite-element method in the frequency domain. One synthetic elastic crosshole model is used to compare the recovered images with all these methods as well as the known source signature (KSS) inversion method. The numerical experiments show that the IES method is superior to both STN and ATN methods in two-component, elastic-wave inversion in the frequency domain when the source...
International audienceData from 53 shot records collected in a conventional, land, seismic reflectio...
Full Waveform Inversion (FWI) is a depth imaging technique that takes advantage of the full informat...
International audienceAccurate synthetic seismic wavefields can now be computed in 3-D earth models ...
A rigorous full waveform inversion of seismic data has been a challenging subject partly because of ...
Copyright © 2003 Australian Society of Exploration GeophysicistsWe have developed a new full-wavefor...
Copyright © 2003 Society of Exploration Geophysicists We investigate a simple scheme for full‐wavefo...
International audienceNonlinear elastic waveform inversion has advanced to the point where it is now...
In full waveform inversion (FWI) we need to know the seismic source signature. In practice this is g...
International audienceFull waveform inversion (FWI) is a powerful method to estimate high-resolution...
Full waveform inversion (FWI) of seismic traces recorded at the free surface allows the reconstructi...
Full-waveform inversion is a promising tool for a wide range of imaging scenario, in that it has the...
In seismic waveform inversion, if we have no information on source signature, we need to invert seis...
Full waveform inversion of seismic data is a challenging subject partly because of the lack of preci...
857-866Full waveform inversion is a challenging data-fitting procedure based on full wave field mode...
Estimation of ambient seismic source distributions (e.g. location and strength) can aid studies of s...
International audienceData from 53 shot records collected in a conventional, land, seismic reflectio...
Full Waveform Inversion (FWI) is a depth imaging technique that takes advantage of the full informat...
International audienceAccurate synthetic seismic wavefields can now be computed in 3-D earth models ...
A rigorous full waveform inversion of seismic data has been a challenging subject partly because of ...
Copyright © 2003 Australian Society of Exploration GeophysicistsWe have developed a new full-wavefor...
Copyright © 2003 Society of Exploration Geophysicists We investigate a simple scheme for full‐wavefo...
International audienceNonlinear elastic waveform inversion has advanced to the point where it is now...
In full waveform inversion (FWI) we need to know the seismic source signature. In practice this is g...
International audienceFull waveform inversion (FWI) is a powerful method to estimate high-resolution...
Full waveform inversion (FWI) of seismic traces recorded at the free surface allows the reconstructi...
Full-waveform inversion is a promising tool for a wide range of imaging scenario, in that it has the...
In seismic waveform inversion, if we have no information on source signature, we need to invert seis...
Full waveform inversion of seismic data is a challenging subject partly because of the lack of preci...
857-866Full waveform inversion is a challenging data-fitting procedure based on full wave field mode...
Estimation of ambient seismic source distributions (e.g. location and strength) can aid studies of s...
International audienceData from 53 shot records collected in a conventional, land, seismic reflectio...
Full Waveform Inversion (FWI) is a depth imaging technique that takes advantage of the full informat...
International audienceAccurate synthetic seismic wavefields can now be computed in 3-D earth models ...