Rayleigh-wave dispersion is observed every time acoustic impedance stratification occurs, and its analysis is suitable for vertical shear-wave profile reconstruction. Accurate dispersion-curve identification is essential in order to properly determine the shear-wave velocity distribution of a medium.Data sets characterized by several events generate complex velocity spectra that can lead to possible misinterpretations. We analyse a real data set by taking into account theoretical dispersion curves and synthetic data obtained from numerical simulations in order to avoid possible pitfalls that couldarise from the complex trends exhibited in the f\u2013k (frequency\u2013wavenumber) and v\u2013f (velocity\u2013frequency) domains. In the v\u2013...
Dispersion characteristics of seismic surface waves were analyzed with and without a homogeneously l...
The dispersive nature of Rayleigh waves is the basis of many identification procedures to infer the ...
Surfacewave methods consist of the extraction and inversion of the Rayleigh wave phase-velocity disp...
Inversion of the fundamental mode of the Rayleigh wave dispersion curve does not provide a unique so...
Due to the character of seismic energy generation and propagation, shallow high-resolution seismic-r...
Seismic surface wave methods gained popularity during the last decade to retrieve the shallow subsur...
International audienceInversion of the fundamental mode of the Rayleigh wave dispersion curve does n...
Noninvasive geophysical techniques based on the dispersion of surface waves in layered media are com...
The surface wave method is a popular tool for geotechnical characterization because it supplies a co...
Dispersive Rayleigh waves, contained in conventional P-wave refraction records, can be used to deter...
Surface-wave dispersion analysis is widely used in geophysics to infer a shear wave velocity model o...
International audienceDispersion analysis of Rayleigh waves is performed to assess the velocity of c...
Dispersion characteristics of seismic surface waves were analyzed with and without a homogeneously l...
The dispersive nature of Rayleigh waves is the basis of many identification procedures to infer the ...
Surfacewave methods consist of the extraction and inversion of the Rayleigh wave phase-velocity disp...
Inversion of the fundamental mode of the Rayleigh wave dispersion curve does not provide a unique so...
Due to the character of seismic energy generation and propagation, shallow high-resolution seismic-r...
Seismic surface wave methods gained popularity during the last decade to retrieve the shallow subsur...
International audienceInversion of the fundamental mode of the Rayleigh wave dispersion curve does n...
Noninvasive geophysical techniques based on the dispersion of surface waves in layered media are com...
The surface wave method is a popular tool for geotechnical characterization because it supplies a co...
Dispersive Rayleigh waves, contained in conventional P-wave refraction records, can be used to deter...
Surface-wave dispersion analysis is widely used in geophysics to infer a shear wave velocity model o...
International audienceDispersion analysis of Rayleigh waves is performed to assess the velocity of c...
Dispersion characteristics of seismic surface waves were analyzed with and without a homogeneously l...
The dispersive nature of Rayleigh waves is the basis of many identification procedures to infer the ...
Surfacewave methods consist of the extraction and inversion of the Rayleigh wave phase-velocity disp...