Predicting approximate seismic responses in multistory buildings from real-time earthquake source information, for earthquake early warning applications

Cremen Gemma; Velazquez Omar; Orihuela BenazirGalasso Carmine

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Predicting approximate seismic responses in multistory buildings from real-time earthquake source information, for earthquake early warning applications

机译：Predicting approximate seismic responses in multistory buildings from real-time earthquake source information, for earthquake early warning applications

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Regional earthquake early warning (EEW) alerts and related risk-mitigation actions are often triggered when the expected value of a ground-motion intensity measure (IM), computed from real-time magnitude and source location estimates, exceeds a predefined critical IM threshold. However, the shaking experienced in mid- to high-rise buildings may be significantly different from that on the ground, which could lead to sub-optimal decision-making (i.e., increased occurrences of false and missed EEW alarms) with the aforementioned strategy. This study facilitates an important advancement in EEW decision-support, by developing empirical models that directly relate earthquake source parameters to resulting approximate responses in multistory buildings. The proposed models can leverage real-time earthquake information provided by a regional EEW system, to provide rapid predictions of structure-specific engineering demand parameters that can be used to more accurately determine whether or not an alert is triggered. We use a simplified continuum building model consisting of a flexural/shear beam combination and vary its parameters to capture a wide range of deformation modes in different building types. We analyse the approximate responses for the building model variations, using Italian accelerometric data and corresponding source parameter information from 54 earthquakes. The resulting empirical prediction equations are incorporated in a real-time Bayesian framework that can be used for building-specific EEW applications, such as (1) early warning of floor-shaking sensed by occupants; and (2) elevator control. Finally, we demonstrate the improvement in EEW alert accuracy that can be achieved using the proposed models.

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来源
《Bulletin of earthquake engineering》 |2021年第12期|4865-4885|共21页
作者
Cremen Gemma; Velazquez Omar; Orihuela BenazirGalasso Carmine;
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作者单位

UCL, Dept Civil Environm & Geomat Engn, Gower St, London, England;

UCL, Inst Risk & Disaster Reduct, 2nd Floor,South Wing, London, England;

Inst Geofis Peru IGP, Ciencias Tierra Solida CTS, Calle Calatrava 216, Lima, Peru;

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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
Earthquake early warning; Real-time seismic response prediction; Decision-making under uncertainty;

Predicting approximate seismic responses in multistory buildings from real-time earthquake source information, for earthquake early warning applications

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