PROBABILISTIC FAULT DISPLACEMENT HAZARD ANALYSIS USING MODEL OF SEISMIC SOURCE CHARACTERISTICS AT THE IKATA SITE BASED ON GUIDELINES FOR SSHAC LEVEL 3

Fault displacement is an important hazard to be considered in the seismic design of structures, along with strong ground motion. In recent years, standards and safety guides for probabilistic fault displacement hazard analysis have been published, and social demand for probabilistic verification of...

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Veröffentlicht in:	Journal of Japan Association for Earthquake Engineering 2024, Vol.24(2), pp.2_57-2_78
Hauptverfasser:	NISHIZAKA, Naoki, ONISHI, Kozo, ISHIKAWA, Yoshihiko, ONO, Masato, MIYAKOSHI, Jun’ichi, IKEDA, Michiharu, TSUJI, Takeshi, KUMAMOTO, Takashi, OKUMURA, Koji
Format:	Artikel
Sprache:	eng ; jpn
Schlagworte:	Demand analysis Design standards Distributed fault Earthquakes Ground motion Guidelines Hazard assessment Median Tectonic Line active fault zone Probabilistic fault displacement hazard analysis Seismic activity Seismic design
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creator	NISHIZAKA, Naoki ONISHI, Kozo ISHIKAWA, Yoshihiko ONO, Masato MIYAKOSHI, Jun’ichi IKEDA, Michiharu TSUJI, Takeshi KUMAMOTO, Takashi OKUMURA, Koji
description	Fault displacement is an important hazard to be considered in the seismic design of structures, along with strong ground motion. In recent years, standards and safety guides for probabilistic fault displacement hazard analysis have been published, and social demand for probabilistic verification of fault displacement underneath critical facilities has increased. However, the practice of this method is very limited worldwide, and there are no reports of its full-scale implementation for a specific structure in Japan. In order to achieve wide application in the future, we should first practice probabilistic fault displacement hazard analysis based on a model with higher accuracy, and then understand the current issues properly. Here, we practice the probabilistic fault displacement hazard analysis using model of seismic source characteristics at the Ikata site based on guidelines for SSHAC Level 3, and report on the specific issues in its application at the practical level, referred to the knowledge obtained from the observation data of the 2016 Kumamoto earthquake.
doi_str_mv	10.5610/jaee.24.2_57
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source	J-STAGE Free; EZB Electronic Journals Library
subjects	Demand analysis Design standards Distributed fault Earthquakes Ground motion Guidelines Hazard assessment Median Tectonic Line active fault zone Probabilistic fault displacement hazard analysis Seismic activity Seismic design
title	PROBABILISTIC FAULT DISPLACEMENT HAZARD ANALYSIS USING MODEL OF SEISMIC SOURCE CHARACTERISTICS AT THE IKATA SITE BASED ON GUIDELINES FOR SSHAC LEVEL 3
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