Surface wave dispersion curves are inverted to obtain 1D local VS model. The inversion is based on a layered model and the result is non-unique. A linear relationship can be found between weighted average S-wave velocity at different depths and surface-wave phase velocity at different wavelengths. This relationship, if known for a category of models, can be used to directly estimate an approximated velocity profile from the dispersion curve without the need for inverting. We show on a synthetic case that the error between estimated and true velocity is of the same order of that obtained by inversion
Surface waves can be used to obtain a near-surface shear wave profile. The inverse problem is usuall...
Rayleigh wave dispersion curves and P refraction travel times are jointly inverted through a damped ...
Surface wave analysis performed on data acquired on purpose or extracted from seismic gathers acquir...
Surface wave dispersion curves are inverted to obtain 1D local VS model. The inversion is based on a...
The inversion of surface wave dispersion curves is a well-established investigation approach to prov...
Surface wave dispersion can be inverted for S-wave 1D velocity models that can be used for static co...
Dispersion characteristics of seismic surface waves were analyzed with and without a homogeneously l...
In some areas, the estimation of static corrections for land seismic data is a critical step of the ...
Near surface velocity models are needed for static corrections applied to seismic reflection data. S...
The analysis of surface wave dispersion curves (DCs) is widely used for near-surface S-wave velocity...
<p>Surface waves are often used to estimate a near-surface shear-velocity profile. The inverse probl...
The inversion of surface-wave dispersion curve to derive shear-wave velocity profile is a very delic...
Surface waves (SWs) in seismic records can be used to extract local dispersion curves (DCs) along a ...
Recently, we proposed an analytical approach to invert for a smoothly varying near-surface P-wave ve...
Surface waves can be used to obtain a near-surface shear wave profile. The inverse problem is usuall...
Surface waves can be used to obtain a near-surface shear wave profile. The inverse problem is usuall...
Rayleigh wave dispersion curves and P refraction travel times are jointly inverted through a damped ...
Surface wave analysis performed on data acquired on purpose or extracted from seismic gathers acquir...
Surface wave dispersion curves are inverted to obtain 1D local VS model. The inversion is based on a...
The inversion of surface wave dispersion curves is a well-established investigation approach to prov...
Surface wave dispersion can be inverted for S-wave 1D velocity models that can be used for static co...
Dispersion characteristics of seismic surface waves were analyzed with and without a homogeneously l...
In some areas, the estimation of static corrections for land seismic data is a critical step of the ...
Near surface velocity models are needed for static corrections applied to seismic reflection data. S...
The analysis of surface wave dispersion curves (DCs) is widely used for near-surface S-wave velocity...
<p>Surface waves are often used to estimate a near-surface shear-velocity profile. The inverse probl...
The inversion of surface-wave dispersion curve to derive shear-wave velocity profile is a very delic...
Surface waves (SWs) in seismic records can be used to extract local dispersion curves (DCs) along a ...
Recently, we proposed an analytical approach to invert for a smoothly varying near-surface P-wave ve...
Surface waves can be used to obtain a near-surface shear wave profile. The inverse problem is usuall...
Surface waves can be used to obtain a near-surface shear wave profile. The inverse problem is usuall...
Rayleigh wave dispersion curves and P refraction travel times are jointly inverted through a damped ...
Surface wave analysis performed on data acquired on purpose or extracted from seismic gathers acquir...