缩放比例
地震学
衰减
方位角
标准差
地质学
指向性
大地测量学
地震动
震级(天文学)
光谱加速度
构造学
非线性系统
峰值地面加速度
几何学
物理
数学
统计
光学
工程类
电信
量子力学
天线(收音机)
天文
作者
Norman A. Abrahamson,Walter J. Silva,Ronnie Kamai
标识
DOI:10.1193/070913eqs198m
摘要
Empirical ground motion models for the average horizontal component from shallow crustal earthquakes in active tectonic regions are derived using the PEER NGA-West2 database. The model is applicable to magnitudes 3.0–8.5, distances 0–300 km, and spectral periods of 0–10 s. The model input parameters are the same as those used by Abrahamson and Silva (2008) , with the following exceptions: the loading level for nonlinear effects is based on the spectral acceleration at the period of interest rather than the PGA; and the distance scaling for hanging wall (HW) effects off the ends of the rupture includes a dependence on the source-to-site azimuth. Regional differences in large-distance attenuation and V S30 scaling between California, Japan, China, and Taiwan are included. The scaling for the HW effect is improved using constraints from numerical simulations. The standard deviation is magnitude-dependent, with smaller magnitudes leading to larger standard deviations at short periods, but smaller standard deviations at long periods. Directivity effects are not included through explicit parameters, but are captured through the variability of the empirical data.
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