High resolution seismic reflection surveys provide images of subsurface S-wave structures and are therefore a powerful tool for engineering problems. When SH seismic reflection cannot be gathered, shallow S-wave velocity models can be also obtained from surface wave data analysis. Surface waves (either acquired on purpose or extracted from P-wave seismic reflection gathers) can be considered a useful complement or an alternative to seismic reflection for engineering characterization of shallow layers
AbstractIn order to quantify the near-surface seismic properties (P- and S-wave velocities, and the ...
"Surface wave methods analysis the dispersive nature of surface wave propagation in heterogeneous me...
Characterization of the near-surface is important in identifying shallow properties and structures. ...
Surface wave analysis performed on data acquired on purpose or extracted from seismic gathers acquir...
Surface waves (SWs) in seismic records can be used to extract local dispersion curves (DCs) along a ...
Near surface velocity models are needed for static corrections applied to seismic reflection data. S...
The estimation of near surface velocity models of unconsolidated sand bodies is a significant target...
The exact determination of lithologic and structural parameters of near-surface layers with thicknes...
In sites where earthquakes occur, the use of surface wave methods represents a convenient and effect...
Surface-wave dispersion analysis is widely used in geophysics to infer a shear wave velocity model o...
Knowledge of near-surface seismic-wave velocity of granular materials plays a valuable role in seism...
In order to quantify the near-surface seismic properties (P- and S-wave velocities, and the dynamic ...
In some areas, the estimation of static corrections for land seismic data is a critical step of the ...
Ground roll and mud roll in seismic reflection data can be analysed to infer a near surface S-wave v...
Shallow SH-wave reflections are far from routine, although their study can provide insights into im...
AbstractIn order to quantify the near-surface seismic properties (P- and S-wave velocities, and the ...
"Surface wave methods analysis the dispersive nature of surface wave propagation in heterogeneous me...
Characterization of the near-surface is important in identifying shallow properties and structures. ...
Surface wave analysis performed on data acquired on purpose or extracted from seismic gathers acquir...
Surface waves (SWs) in seismic records can be used to extract local dispersion curves (DCs) along a ...
Near surface velocity models are needed for static corrections applied to seismic reflection data. S...
The estimation of near surface velocity models of unconsolidated sand bodies is a significant target...
The exact determination of lithologic and structural parameters of near-surface layers with thicknes...
In sites where earthquakes occur, the use of surface wave methods represents a convenient and effect...
Surface-wave dispersion analysis is widely used in geophysics to infer a shear wave velocity model o...
Knowledge of near-surface seismic-wave velocity of granular materials plays a valuable role in seism...
In order to quantify the near-surface seismic properties (P- and S-wave velocities, and the dynamic ...
In some areas, the estimation of static corrections for land seismic data is a critical step of the ...
Ground roll and mud roll in seismic reflection data can be analysed to infer a near surface S-wave v...
Shallow SH-wave reflections are far from routine, although their study can provide insights into im...
AbstractIn order to quantify the near-surface seismic properties (P- and S-wave velocities, and the ...
"Surface wave methods analysis the dispersive nature of surface wave propagation in heterogeneous me...
Characterization of the near-surface is important in identifying shallow properties and structures. ...