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A National <i>V</i><sub><i>S</i>30</sub> Model for South Korea to Combine Nationwide Dense Borehole Measurements With Ambient Seismic Noise Analysis

Byeongwoo Kim, Tae‐Kyung Hong

2021Earth and Space Science20 citationsDOIOpen Access PDF

Abstract

Abstract The average shear‐wave velocity within the top 30 m from the surface, V S 30 , represents site characteristics including the soil classification and site amplification that are essential information for building codes and seismic design. A novel method to determine a V S 30 model based on a composite analysis of borehole standard penetration test numbers (SPT N) and horizontal‐to‐vertical (H/V) spectral ambient noise ratios is introduced. A national V S 30 model for South Korea is determined using the method. The shear‐wave velocity structures beneath 20 nationwide broadband seismic stations are determined using the H/V analysis. The SPT N data are collected from 175,619 nationwide densely‐distributed boreholes. The shear‐wave velocity models from SPT N values are calibrated for the local reference velocity models from H/V analysis. A representative relationship between the SPT N values and shear‐wave velocities is introduced. A national V S 30 model for South Korea is determined using the calibrated SPT N models at the nationwide boreholes. The V S 30 model is verified by comparisons with local field measurements. The proposed model is consistent with the USGS model based on a surface slope analysis. The V S 30 structure presents high correlation with geological and topographic features. The V S 30 values are low in coastal (low topographic) areas, and high in mountain (high topographic) areas. Apparent linear relationship is observed between V S 30 and topography. The western and southeastern coastal regions may be vulnerable to strong seismic shaking.

Topics & Concepts

BoreholeGeologySeismologyWave velocityStandard penetration testSeismic noiseShear velocityAmbient noise levelShear (geology)Vertical seismic profileGeomorphologyMeteorologyGeotechnical engineeringLiquefactionGeographyTurbulenceSound (geography)PetrologySeismic Waves and AnalysisSeismic Imaging and Inversion TechniquesGeotechnical Engineering and Underground Structures
A National <i>V</i><sub><i>S</i>30</sub> Model for South Korea to Combine Nationwide Dense Borehole Measurements With Ambient Seismic Noise Analysis | Litcius