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Three-dimensional path-effect model to simulate ground motion attenuation on the Korean Peninsula

Authors
Jee, Hyun WooHan, Sang WhanLee, Kihak
Issue Date
Nov-2024
Publisher
SAGE Publications Inc.
Keywords
Fourier amplitude spectrum; geometrical spreading factor; ground motion; Path effect; quality factor; ray propagation; shear-wave velocity
Citation
Earthquake Spectra, v.40, no.4, pp 2651 - 2668
Pages
18
Indexed
SCIE
SCOPUS
Journal Title
Earthquake Spectra
Volume
40
Number
4
Start Page
2651
End Page
2668
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212688
DOI
10.1177/87552930241258271
ISSN
8755-2930
1944-8201
Abstract
In low-to-moderately active seismic regions such as the Korean Peninsula, it is difficult to analyze seismic hazards because only a limited number of strong ground motions have been recorded. To address this shortcoming in the data, ground motion simulation can be used to generate the strong ground motions associated with potentially large earthquakes, taking into account the attenuation that occurs as the distance from the source increases. To simulate this attenuation, the path effect, which is a component of the Fourier amplitude spectrum (FAS), needs to be defined, along with the source and site effects. The path effect represents the propagation of seismic rays through a tectonic medium. In this study, a three-dimensional (3D) path effect model is developed for the Korean Peninsula, consisting of a 3D geometrical spreading factor, quality factor, and shear-wave velocity. The accuracy of the proposed model is verified by comparing the path-effect values obtained from the FAS of individual ground motions recorded on the Korean Peninsula and those calculated from the model. Examples that demonstrate the procedure to calculate the 3D path effect for the Korean Peninsula are also provided.
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