Predictive Equations to Estimate Arias Intensity and Cumulative Absolute Velocity As A Function of Housner Intensity

This paper deals with the development of empirical relationships for the estimation of Arias Intensity and Cumulative Absolute Velocity as a function of Housner Intensity. These ground motion parameters are evaluated for a data set of natural accelerograms previously used in the calibration of atten...

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Veröffentlicht in:	2008 Seismic Engineering Conference Commemorating the 1908 Messina and Reggio Calabria Earthquake Part One (AIP Conference Porceedings Volume 1020, Part 1) Part 1), 2008-01, Vol.1020 (1), p.309-316
Hauptverfasser:	Martinez-Rueda, J Enrique, Moutsokapas, Giannis, Tsantali, Evdokia
Format:	Artikel
Sprache:	eng
Schlagworte:	ATTENUATION CALIBRATION EARTHQUAKES EQUATIONS FLUIDS GEOSCIENCES GROUND MOTION ROCKS SEISMOLOGY SLIP SOILS VELOCITY WAVE PROPAGATION
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container_title	2008 Seismic Engineering Conference Commemorating the 1908 Messina and Reggio Calabria Earthquake Part One (AIP Conference Porceedings Volume 1020, Part 1)
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creator	Martinez-Rueda, J Enrique Moutsokapas, Giannis Tsantali, Evdokia
description	This paper deals with the development of empirical relationships for the estimation of Arias Intensity and Cumulative Absolute Velocity as a function of Housner Intensity. These ground motion parameters are evaluated for a data set of natural accelerograms previously used in the calibration of attenuation equations in Europe and the Middle East. The family of the predictive equations proposed account for different combinations of seismic site (rock, stiff soil, or soft soil) and fault mechanism (normal, strike-slip, or thrust). Once the target Housner Intensity has been defined in frequency domain, the proposed equations can be applied to estimate the target instrumental intensity of the seismic input in time domain.
doi_str_mv	10.1063/1.2963850
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subjects	ATTENUATION CALIBRATION EARTHQUAKES EQUATIONS FLUIDS GEOSCIENCES GROUND MOTION ROCKS SEISMOLOGY SLIP SOILS VELOCITY WAVE PROPAGATION
title	Predictive Equations to Estimate Arias Intensity and Cumulative Absolute Velocity As A Function of Housner Intensity
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