A non-ergodic effective amplitude ground-motion model for California

Lavrentiadis Grigorios; Abrahamson Norman A.; Kuehn Nicolas M.

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A non-ergodic effective amplitude ground-motion model for California

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A new non-ergodic ground-motion model (GMM) for effective amplitude spectral (EAS) values for California is presented in this study. EAS, which is defined in Goulet et al. (Effective amplitude spectrum (eas) as a metric for ground motion modeling using fourier amplitudes, 2018), is a smoothed rotation-independent Fourier amplitude spectrum of the two horizontal components of an acceleration time history. The main motivation for developing a non-ergodic EAS GMM, rather than a spectral acceleration GMM, is that the scaling of EAS does not depend on spectral shape, and therefore, the more frequent small magnitude events can be used in the estimation of the non-ergodic terms. The model is developed using the California subset of the NGAWest2 dataset (Ancheta in PEER NGA-West2 database. Tech. rep., PEER, Berkeley, CA, 2013). The Bayless and Abrahamson (Bull Seismol Soc Am 109(5): 2088-2105, , 2019b) (BA18) ergodic EAS GMM was used as backbone to constrain the average source, path, and site scaling. The non-ergodic GMM is formulated as a Bayesian hierarchical model: the non-ergodic source and site terms are modeled as spatially varying coefficients following the approach of Landwehr et al. (Bull Seismol Soc Am 106(6):2574-2583. , 2016), and the non-ergodic path effects are captured by the cell-specific anelastic attenuation attenuation following the approach of Dawood and Rodriguez-Marek (Bull Seismol Soc Am 103(2B):1360-1372, , 2013). Close to stations and past events, the mean values of the non-ergodic terms deviate from zero to capture the systematic effects and their epistemic uncertainty is small. In areas with sparse data, the epistemic uncertainty of the non-ergodic terms is large, as the systematic effects cannot be determined. The non-ergodic total aleatory standard deviation is approximately 30 to 40documentclass12pt{minimal} usepackage{amsmath} usepackage{wasysym} usepackage{amsfonts} usepackage{amssymb} usepackage{amsbsy} usepackage{mathrsfs} usepackage{upgreek} setlength{oddsidemargin}{-69pt} begin{document}$$40$$end{document} smaller than the total aleatory standard deviation of BA18. This reduction in the aleatory variability has a significant impact on hazard calculations at large return periods. The epistemic uncertainty of the ground motion predictions is small in areas close to stations and past events.

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来源
《Bulletin of earthquake engineering》 |2023年第11期|5233-5264|共32页
作者
Lavrentiadis Grigorios; Abrahamson Norman A.; Kuehn Nicolas M.;
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作者单位

Univ Calif Berkeley;

Univ Calif Los Angeles;

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原文格式 PDF
正文语种英语
中图分类地震学;
关键词
Probabilistic seismic hazard analysis; Non-ergodic ground-motion model; Effective amplitude spectra; Bayesian regression; SEISMIC-HAZARD ANALYSIS; PREDICTION EQUATIONS; CRUSTAL EARTHQUAKES; EMPIRICAL FOURIER; ATTENUATION; SPECTRA; SITE;

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A non-ergodic effective amplitude ground-motion model for California

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