Publication Date:
2021-12-15
Description:
This paper is concerned with modeling earthquake-induced ground accelerations and the simulation of
the dynamic response of linear structures through the principles of stochastic dynamics. A fully
evolutionary approach, with nonstationarity both in amplitude and in frequency content, is proposed in
order to define the seismic action, based on seismological information in the form of a small number of
input parameters commonly available in deterministic or probabilistic seismic design situations. The
signal is obtained by filtering a Gaussian white-noise. The finite duration and time-varying amplitude
properties are obtained by using a suitable envelope function. By utilizing a subset of the records from
the PEER-NGA strong-motion database, and time-series analysis tools extended to nonstationary
processes, the key transfer-function properties, in terms of circular frequency, damping ratio and
spectral intensity factor, are identified. A regression analysis is conducted for practical and flexible
application of this model, in order to empirically relate the identified time-varying parameters of the
filter to the characteristics defining earthquake scenarios such as magnitude, rupture distance and soil
type. A validation study and a parametric investigation using elastic response spectra is also included.
Results show that the final seismic model can reproduce, with satisfactory accuracy, the characteristics
of acceleration records in a region, over a broad range of response periods.
Description:
Published
Description:
1465-1479
Description:
5T. Sismologia, geofisica e geologia per l'ingegneria sismica
Description:
JCR Journal
Repository Name:
Istituto Nazionale di Geofisica e Vulcanologia (INGV)
Type:
article
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