<p>Surface waves are often used to estimate a near-surface shear-velocity profile. The inverse problem is solved for the locally one-dimensional problem of a set of homogeneous horizontal elastic layers. The result is a set of shear velocities, one for each layer. To obtain a P-wave velocity profile, the P-guided waves should be included in the inversion scheme. As an alternative to a multi-layered model, we consider a simple smooth acoustic constant-density velocity model, which has a negative constant vertical depth gradient of the squared P-wave slowness and is bounded by a free surface at the top and a homogeneous half-space at the bottom. The exact solution involves Airy functions and provides an analytical expression for the dispersio...
The non-linear inversion of geophysical data in general does not yield a unique solution, but a sing...
It is essential to understand the potential resolving power of surface wave data in interpreting inv...
The inversion of surface-wave dispersion curve to derive shear-wave velocity profile is a very delic...
Surface waves are often used to estimate a near-surface shear-velocity profile. The inverse problem ...
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...
Recently, we proposed an analytical approach to invert for a smoothly varying near-surface P-wave ve...
We inverted seismic field data for a continuous, laterally invariant P-wave velocity profile. Instea...
Near surface velocity models are needed for static corrections applied to seismic reflection data. S...
We present here a joint inversion method to build P- and S-wave velocity models from surface-wave an...
International audienceWe investigate the capacity of extracting near-surface shear-wave velocity by ...
Surface wave dispersion curves are inverted to obtain 1D local VS model. The inversion is based on a...
We extend the approach underlying the well-known Dix equation in reflection seismology to surface wa...
Dispersion characteristics of seismic surface waves were analyzed with and without a homogeneously l...
For a complex layered site, development of a shear wave velocity profile from inversion of seismic s...
The non-linear inversion of geophysical data in general does not yield a unique solution, but a sing...
It is essential to understand the potential resolving power of surface wave data in interpreting inv...
The inversion of surface-wave dispersion curve to derive shear-wave velocity profile is a very delic...
Surface waves are often used to estimate a near-surface shear-velocity profile. The inverse problem ...
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...
Recently, we proposed an analytical approach to invert for a smoothly varying near-surface P-wave ve...
We inverted seismic field data for a continuous, laterally invariant P-wave velocity profile. Instea...
Near surface velocity models are needed for static corrections applied to seismic reflection data. S...
We present here a joint inversion method to build P- and S-wave velocity models from surface-wave an...
International audienceWe investigate the capacity of extracting near-surface shear-wave velocity by ...
Surface wave dispersion curves are inverted to obtain 1D local VS model. The inversion is based on a...
We extend the approach underlying the well-known Dix equation in reflection seismology to surface wa...
Dispersion characteristics of seismic surface waves were analyzed with and without a homogeneously l...
For a complex layered site, development of a shear wave velocity profile from inversion of seismic s...
The non-linear inversion of geophysical data in general does not yield a unique solution, but a sing...
It is essential to understand the potential resolving power of surface wave data in interpreting inv...
The inversion of surface-wave dispersion curve to derive shear-wave velocity profile is a very delic...