Add to ORKGThe InterPACIFIC project is aimed at the assessment of the reliability of different geophysical methods (both invasive and non-invasive) for the estimation of shear wave velocity profiles. Blind tests have been performed in three different subsoil conditions. The observed variability in the results provided by several operators gives a representation of the uncertainties that has to be expected in site characterization. The implications of these uncertainties on ground response analyses are considered in the present paper
A robust assessment of the influence of epistemic uncertainties and aleatory variabilities on groun...
Surface ground motions predicted from a seismic site response analysis are strongly dependent on the...
Surface waves can be used to determine the shear velocity profile from the ground surface to some de...
International audienceThe InterPacific project (Intercomparison of methods for site parameter and ve...
This study aims at evaluating the influence of epistemic uncertainties in shear wave velocity (VS) o...
The InterPACIFIC project was aimed at assessing the reliability, resolution, and variability of geop...
The InterPACIFIC project was aimed at assessing the reliability, resolution, and variability of geop...
The impact of earthquakes worldwide on critical infrastructure has shown the importance of accountin...
Site response is a critical consideration when assessing earthquake hazards. Site characterization i...
Site characterization is a basic step in any study involving the estimation of local seismic amplifi...
Site response is a critical consideration when assessing earthquake hazards. Site characterization i...
A statistical analysis has been performed aiming at determining to what extent a qualitative enginee...
Inversion is a critical step in all geophysical techniques, and is generally fraught with ill-posedn...
In recent years, the use of surface wave tests for seismic site characterization has expanded rapidl...
The shear wave velocity profile in the shallow subsoil plays a predominant role in quantitative sei...
A robust assessment of the influence of epistemic uncertainties and aleatory variabilities on groun...
Surface ground motions predicted from a seismic site response analysis are strongly dependent on the...
Surface waves can be used to determine the shear velocity profile from the ground surface to some de...
International audienceThe InterPacific project (Intercomparison of methods for site parameter and ve...
This study aims at evaluating the influence of epistemic uncertainties in shear wave velocity (VS) o...
The InterPACIFIC project was aimed at assessing the reliability, resolution, and variability of geop...
The InterPACIFIC project was aimed at assessing the reliability, resolution, and variability of geop...
The impact of earthquakes worldwide on critical infrastructure has shown the importance of accountin...
Site response is a critical consideration when assessing earthquake hazards. Site characterization i...
Site characterization is a basic step in any study involving the estimation of local seismic amplifi...
Site response is a critical consideration when assessing earthquake hazards. Site characterization i...
A statistical analysis has been performed aiming at determining to what extent a qualitative enginee...
Inversion is a critical step in all geophysical techniques, and is generally fraught with ill-posedn...
In recent years, the use of surface wave tests for seismic site characterization has expanded rapidl...
The shear wave velocity profile in the shallow subsoil plays a predominant role in quantitative sei...
A robust assessment of the influence of epistemic uncertainties and aleatory variabilities on groun...
Surface ground motions predicted from a seismic site response analysis are strongly dependent on the...
Surface waves can be used to determine the shear velocity profile from the ground surface to some de...