AUTHOR=Liu Wenxin , Peng Yanjv , Wang Jingjing 

TITLE=Spatially correlated Vs30 estimation in the Beijing area

JOURNAL=Frontiers in Earth Science

VOLUME=10

YEAR=2023

URL=https://www.frontiersin.org/journals/earth-science/articles/10.3389/feart.2022.950582

DOI=10.3389/feart.2022.950582

ISSN=2296-6463

ABSTRACT=<p>Beijing is an international metropolis, that is also an earthquake-prone city. The aims of this study are detailed quantifying and qualifying soil layer properties for an accurate seismic safety evaluation in the Beijing area. The time average shear-wave velocity in the first 30 m of subsoil, V<sub>s30</sub>, is an important site parameter used in site response analysis, site classification, and seismic loss estimation. Mapping of V<sub>s30</sub> over a city-scaled region is commonly done through proxy-based methods by correlating V<sub>s30</sub> with geological or topographic information. In this paper, a geostatistical-based random field model is presented and applied to mapping V<sub>s30</sub> over extended areas. This random field model is then coupled with Monte Carlo simulations to obtain an averaged V<sub>s30</sub> map and its associated uncertainties. Unlike the traditional deterministic prediction model, this framework accounts for spatial variations of V<sub>s30</sub> values and uncertainties, which makes the prediction more reliable. A total of 388 shear wave velocity measurements in the Beijing area are used to calculate V<sub>s30</sub> values, from which the statistical and spatial properties for the random field realizations are inferred. New spatially correlated probabilistic V<sub>s30</sub> maps for the Beijing area are then represented, and the effect of the maximum number of previously generated elements to correlate to in estimating V<sub>s30</sub> maps is tested.</p>