A comparison of ground motions predicted through one-dimensional site response analyses and three-dimensional wave propagation simulations at regional scales

IF 3.1 2区 工程技术 Q2 ENGINEERING, CIVIL Earthquake Spectra Pub Date : 2024-02-28 DOI:10.1177/87552930241231935
Wenyang Zhang, Yufeng Dong, Jorge GF Crempien, Pedro Arduino, Asli Kurtulus, Ertugrul Taciroglu
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Abstract

One-dimensional (1D) site response analysis (SRA), which considers vertically propagating seismic waves from the bedrock to the surface, has been a common technique among geotechnical engineers to examine site-specific ground shaking. However, observations from past earthquakes and analytical studies indicate that idealizations ingrained in 1D SRA may be too severe to capture the ground truth, such as the omissions of spatial variability of soil properties, surface topography, and basin and directivity effects. Physics-based three-dimensional ground motion simulations (GMSs) can incorporate these factors and yield more reliable predictions. In this study, we utilize ground motions from 57 physics-based broadband (from 0 to 8–12 Hz) GMS for a region of Istanbul. A total of 2912 sites with experimentally measured soil profiles that are distributed over the 30 km-by-12.5 km area are also modeled as soil columns and analyzed through 1D SRA. The ground responses from 1D SRA and three-dimensional (3D) GMS are then compared for all 57 earthquake scenarios. These systematic comparisons are then used for examining model features that are correlated with variations in the ratios of various ground motion intensity measures (IMs) and for developing regression-based formulas that can be used for determining simple factors for the considered region to correctly scale (up or down) the site-specific ground motion intensities obtained from 1D SRA, including peak ground acceleration (PGA), peak ground velocity (PGV), and spectral acceleration ( Sa) values.
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区域尺度上通过一维场地响应分析和三维波传播模拟预测的地震动比较
一维(1D)场地响应分析(SRA)考虑了地震波从基岩到地表的垂直传播,是岩土工程师研究特定场地地震动的常用技术。然而,从过去的地震观测和分析研究中可以看出,一维地震动分析中根深蒂固的理想化可能过于严重,无法捕捉到地面的真实情况,例如忽略了土壤特性的空间变化、地表地形以及盆地和方向性效应。基于物理学的三维地动模拟(GMS)可以将这些因素考虑在内,并得出更可靠的预测结果。在这项研究中,我们利用了伊斯坦布尔地区 57 个基于物理的宽带(从 0 到 8-12 Hz)GMS 的地面运动。我们还将分布在 30 千米乘 12.5 千米区域内的 2912 个具有实验测量土壤剖面的地点建模为土柱,并通过 1D SRA 进行分析。然后对所有 57 种地震情况下的一维 SRA 和三维 (3D) GMS 地面响应进行比较。然后利用这些系统性比较来检查与各种地动强度测量值(IMs)比率变化相关的模型特征,并开发基于回归的公式,用于确定考虑区域的简单系数,以正确缩放(向上或向下)从一维 SRA 中获得的特定地点地动强度,包括峰值地面加速度(PGA)、峰值地面速度(PGV)和频谱加速度(Sa)值。
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来源期刊
Earthquake Spectra
Earthquake Spectra 工程技术-工程:地质
CiteScore
8.40
自引率
12.00%
发文量
88
审稿时长
6-12 weeks
期刊介绍: Earthquake Spectra, the professional peer-reviewed journal of the Earthquake Engineering Research Institute (EERI), serves as the publication of record for the development of earthquake engineering practice, earthquake codes and regulations, earthquake public policy, and earthquake investigation reports. The journal is published quarterly in both printed and online editions in February, May, August, and November, with additional special edition issues. EERI established Earthquake Spectra with the purpose of improving the practice of earthquake hazards mitigation, preparedness, and recovery — serving the informational needs of the diverse professionals engaged in earthquake risk reduction: civil, geotechnical, mechanical, and structural engineers; geologists, seismologists, and other earth scientists; architects and city planners; public officials; social scientists; and researchers.
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