Litcius/Paper detail

Direct estimation of shear-wave velocity profiles from surface wave investigation of geotechnical sites

Shibin Lin, Jeramy C. Ashlock, Bo Li

2021Géotechnique17 citationsDOI

Abstract

Surface wave methods have been developed as a commonly used non-invasive tool for shear-wave velocity (V s ) profiling of near-surface soil and rock formations. Inversion is a key step to back-calculate the V s profile from dispersion curves; however, the non-linear and ill-posed nature of the problem sometimes yields non-unique V s profiles. To overcome these challenges, a new method was developed to circumvent inversion and directly estimate V s profiles from the fundamental mode dispersion trend for sites with V s gradually increasing with depth. This method is developed based on the relationship between the phase velocity of surface waves at a given frequency with the time-averaged shear-wave velocity within a depth of one-half wavelength. Three field sites and three simulated sites covering shallow, medium and deep locations with gradually increasing V s with depth are employed to verify the feasibility of the proposed methodology. Results indicate that the method can efficiently give a reasonable and realistic estimation of V s profiles. The goal of this method is to provide an alternative to obtain V s profiles with high certainty and low computational cost for surface wave testing, but not necessarily to find a ‘better’ profile than inversion or to locate each layer interface.

Topics & Concepts

Inversion (geology)Surface waveWavelengthGeologyWave velocityShear (geology)Inverse transform samplingShear velocityDispersion (optics)MechanicsOpticsSeismologyPhysicsTurbulencePetrologyTectonicsSeismic Waves and AnalysisGeophysical Methods and ApplicationsSeismic Imaging and Inversion Techniques