Geo-Proxy-Based Site Classification for Regional Zonation of Seismic Site Effects in South Korea

Geo-Proxy-Based Site Classification for Regional Zonation of Seismic Site Effects in South Korea

Seismic site effects and topographic effects related to ground motion occur during an earthquake due to site-specific geotechnical or geological characteristics, including the geological or geographical structure and the characteristics of near-surface sub-soil layers. Site-specific site effects due...

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Bibliographic Details
Main Authors: Chang-Guk Sun, Han-Saem Kim, Hyung-Ik Cho
Format: Article
Language:English
Published: MDPI AG 2018-02-01
Series:Applied Sciences
Subjects:
site classification
site response
geo-proxy
seismic zonation
geo-spatial grid
Online Access:http://www.mdpi.com/2076-3417/8/2/314
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spelling doaj-19e3d120a66049369f85db2c693fa2b52020-11-24T22:06:43ZengMDPI AGApplied Sciences2076-34172018-02-018231410.3390/app8020314app8020314Geo-Proxy-Based Site Classification for Regional Zonation of Seismic Site Effects in South KoreaChang-Guk Sun0Han-Saem Kim1Hyung-Ik Cho2Geological Research Division, Korea Institute of Geoscience and Mineral Resources, Daejeon 305-350, KoreaEarthquake Research Center, Korea Institute of Geoscience and Mineral Resources, Daejeon 305-350, KoreaEarthquake Research Center, Korea Institute of Geoscience and Mineral Resources, Daejeon 305-350, KoreaSeismic site effects and topographic effects related to ground motion occur during an earthquake due to site-specific geotechnical or geological characteristics, including the geological or geographical structure and the characteristics of near-surface sub-soil layers. Site-specific site effects due to geological conditions have been confirmed in recent earthquake events. Earthquake-induced damage has mainly occurred at accumulated soft soil layers under basins or along coasts and rivers. An alternative method has recently been proposed for evaluating regional seismic site effects and amplification factors using digital elevation models (DEM). High-quality DEMs at high resolutions may be employed to resolve finer-scale variations in topographic gradients and consequently, correlated site response parameters. Because there are many regions in South Korea lacking borehole datasets, which are insufficient for site classification only using borehole datasets, a DEM-based proxy for seismic zonation can be effective. Thus, in this study, geo-proxy-based site classification was proposed based on empirical correlations with site response parameters and conducted for regional zonation of seismic site effects to identify the amplification of characteristics in the western metropolitan areas of South Korea, depending on the site-specific geo-spatial conditions.http://www.mdpi.com/2076-3417/8/2/314site classificationsite responsegeo-proxyseismic zonationgeo-spatial grid
collection DOAJ
language English
format Article
sources DOAJ
author Chang-Guk Sun
Han-Saem Kim
Hyung-Ik Cho
spellingShingle Chang-Guk Sun
Han-Saem Kim
Hyung-Ik Cho
Geo-Proxy-Based Site Classification for Regional Zonation of Seismic Site Effects in South Korea
Applied Sciences
site classification
site response
geo-proxy
seismic zonation
geo-spatial grid
author_facet Chang-Guk Sun
Han-Saem Kim
Hyung-Ik Cho
author_sort Chang-Guk Sun
title Geo-Proxy-Based Site Classification for Regional Zonation of Seismic Site Effects in South Korea
title_short Geo-Proxy-Based Site Classification for Regional Zonation of Seismic Site Effects in South Korea
title_full Geo-Proxy-Based Site Classification for Regional Zonation of Seismic Site Effects in South Korea
title_fullStr Geo-Proxy-Based Site Classification for Regional Zonation of Seismic Site Effects in South Korea
title_full_unstemmed Geo-Proxy-Based Site Classification for Regional Zonation of Seismic Site Effects in South Korea
title_sort geo-proxy-based site classification for regional zonation of seismic site effects in south korea
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2018-02-01
description Seismic site effects and topographic effects related to ground motion occur during an earthquake due to site-specific geotechnical or geological characteristics, including the geological or geographical structure and the characteristics of near-surface sub-soil layers. Site-specific site effects due to geological conditions have been confirmed in recent earthquake events. Earthquake-induced damage has mainly occurred at accumulated soft soil layers under basins or along coasts and rivers. An alternative method has recently been proposed for evaluating regional seismic site effects and amplification factors using digital elevation models (DEM). High-quality DEMs at high resolutions may be employed to resolve finer-scale variations in topographic gradients and consequently, correlated site response parameters. Because there are many regions in South Korea lacking borehole datasets, which are insufficient for site classification only using borehole datasets, a DEM-based proxy for seismic zonation can be effective. Thus, in this study, geo-proxy-based site classification was proposed based on empirical correlations with site response parameters and conducted for regional zonation of seismic site effects to identify the amplification of characteristics in the western metropolitan areas of South Korea, depending on the site-specific geo-spatial conditions.
topic site classification
site response
geo-proxy
seismic zonation
geo-spatial grid
url http://www.mdpi.com/2076-3417/8/2/314
work_keys_str_mv AT changguksun geoproxybasedsiteclassificationforregionalzonationofseismicsiteeffectsinsouthkorea
AT hansaemkim geoproxybasedsiteclassificationforregionalzonationofseismicsiteeffectsinsouthkorea
AT hyungikcho geoproxybasedsiteclassificationforregionalzonationofseismicsiteeffectsinsouthkorea
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