A preliminary empirical model for frequency-dependent attenuation of Fourier amplitude spectra In Serbia from the Vrancea earthquakes

We present the frequency-dependent attenuation model for Fourier amplitude spectra of strong earthquake ground motion in Serbia from intermediate depth earthquakes in the Vrancea source zone in Romania. The development of this type of scaling is the essential first step toward developing the corresp...

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Published in:Soil dynamics and earthquake engineering (1984) 2016-04, Vol.83, p.167-179
Main Authors: Lee, V.W., Trifunac, M.D., Bulajić, B., Manić, M.
Format: Article
Language:English
Subjects:
Attenuation
Earthquake accelerograms
Earthquake engineering
Earthquakes
Estimates
Frequency dependent attenuation of strong motion from Vrancea earthquakes
Mathematical analysis
Mathematical models
Seismic wave energy
Spectra
Stress drop
Strong motion amplitudes at distances beyond 300
Testing of empirical equations via seismic moment
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cited_by cdi_FETCH-LOGICAL-a398t-78a05a0a43c78f81834fd06b2f37ca18a6265c3ec205b316e506bbd5ca0331f93
cites cdi_FETCH-LOGICAL-a398t-78a05a0a43c78f81834fd06b2f37ca18a6265c3ec205b316e506bbd5ca0331f93
container_end_page 179
container_issue
container_start_page 167
container_title Soil dynamics and earthquake engineering (1984)
container_volume 83
creator Lee, V.W.
Trifunac, M.D.
Bulajić, B.
Manić, M.
description We present the frequency-dependent attenuation model for Fourier amplitude spectra of strong earthquake ground motion in Serbia from intermediate depth earthquakes in the Vrancea source zone in Romania. The development of this type of scaling is the essential first step toward developing the corresponding attenuation and scaling equations for pseudo relative velocity spectra (PSV), which are necessary for seismic macro- and microzoning in the territory of Serbia. Such scaling is necessary because the Vrancea source zone produces large earthquakes with shaking that attenuates differently from the local earthquakes in Serbia. Development of such a scaling model is associated with several difficulties, the principal one being the lack of recorded strong motion accelerograms at epicentral distances exceeding 300km. To reduce uncertainties with such scaling, we require our preliminary scaling equations to be consistent with independent estimates of seismic moment, stress drop, and radiated wave energy. In the future, when the recorded strong motion data from Vrancea earthquakes increases several-fold of what it is today, it will become possible to perform this analysis again, thus leading to more reliable and permanent scaling estimates. •Frequency dependent attenuation of strong motion from Vrancea earthquakes.•Extension of Yugoslav scaling equations for Fourier Spectra to Vrancea sources.•Scaling strong motion amplitudes at distances beyond 300km.•Tests of empirical Fourier Spectra at long and short periods and in terms of seismic energy.
doi_str_mv 10.1016/j.soildyn.2015.12.004
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subjects Attenuation
Earthquake accelerograms
Earthquake engineering
Earthquakes
Estimates
Frequency dependent attenuation of strong motion from Vrancea earthquakes
Mathematical analysis
Mathematical models
Seismic wave energy
Spectra
Stress drop
Strong motion amplitudes at distances beyond 300
Testing of empirical equations via seismic moment
title A preliminary empirical model for frequency-dependent attenuation of Fourier amplitude spectra In Serbia from the Vrancea earthquakes
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