Add to ORKGThis article introduces two engineering approaches to guide the simultaneous scaling of both amplitude and time of natural accelerograms. This with the objective of providing alternative tools to complement current data sets of earthquake records to be scaled and used for nonlinear time-history analysis. The first approach proposed for dual scaling relies on the explicit application of a ground motion prediction equation (GMPE) for spectral acceleration. The second approach makes use of a pair of GMPEs to estimate ground motion parameters (GMPs) defined in frequency/period and time domains. To characterize the intensity of the earthquake ground motion, the GMPs selected in this study are Arias Intensity and Housner Intensity
ABSTRACT: Acceleration Time-histories of earthquake ground motions are required for analyzing the st...
The objective of this thesis is to improve the physical understanding of earthquake ground motion ch...
Next generation performance-based earthquake engineering involves the use of a probability framework...
In order to estimate the inelastic seismic response of structures modern design codes, such as the A...
The main objective of this paper is to compare the response spectra estimated when using simple ampl...
A new method for generating earthquake time histories compatible with the rock response spectrum as ...
A number of parameters to assess instrumental intensity in either the frequency or in the time domai...
Design codes tend to recommend a minimum number of scaled natural earthquake accelerograms as an opt...
Nonlinear Time History Analysis (NTHA) is a rigorous technique requiring the analyst to assemble a s...
This dissertation investigates the issue of selecting and scaling ground motions as inputexcitations...
Engineering seismology is the link between earth sciences and engineering. The main input of enginee...
Nonlinear earthquake analyzes of structures are increasingly required by building codes and other se...
The nonlinear time history analysis and seismic performance based methods require a set of scaled gr...
A procedure for estimating ground motions using recorded accelerograms is described. The premise of ...
The state of the practice in dynamic analysis of structures includes the selection of earthquake rec...
ABSTRACT: Acceleration Time-histories of earthquake ground motions are required for analyzing the st...
The objective of this thesis is to improve the physical understanding of earthquake ground motion ch...
Next generation performance-based earthquake engineering involves the use of a probability framework...
In order to estimate the inelastic seismic response of structures modern design codes, such as the A...
The main objective of this paper is to compare the response spectra estimated when using simple ampl...
A new method for generating earthquake time histories compatible with the rock response spectrum as ...
A number of parameters to assess instrumental intensity in either the frequency or in the time domai...
Design codes tend to recommend a minimum number of scaled natural earthquake accelerograms as an opt...
Nonlinear Time History Analysis (NTHA) is a rigorous technique requiring the analyst to assemble a s...
This dissertation investigates the issue of selecting and scaling ground motions as inputexcitations...
Engineering seismology is the link between earth sciences and engineering. The main input of enginee...
Nonlinear earthquake analyzes of structures are increasingly required by building codes and other se...
The nonlinear time history analysis and seismic performance based methods require a set of scaled gr...
A procedure for estimating ground motions using recorded accelerograms is described. The premise of ...
The state of the practice in dynamic analysis of structures includes the selection of earthquake rec...
ABSTRACT: Acceleration Time-histories of earthquake ground motions are required for analyzing the st...
The objective of this thesis is to improve the physical understanding of earthquake ground motion ch...
Next generation performance-based earthquake engineering involves the use of a probability framework...