Add to ORKGNew empirical scaling equations of Fourier amplitude spectra of strong earthquake shaking are presented for the site characterization in terms of local geologic and local soil conditions simultaneously. It is shown that using only the local soil site classification may lead to biased results, and it is suggested that both soil and geologic conditions should be used together in estimation of the site specific spectrum amplitudes
Following some introductory remarks on the key aspects of seismic site effects evaluation and on new...
This study proposes to use a method of nonlinear, nonstationary data processing and analysis, i.e., ...
The period and amplitude variations of local peaks in the Fourier amplitude spectra of free-field st...
We examine how the decay of high-frequency amplitudes of Fourier spectra of strong earthquake ground...
We examine how the decay of high-frequency amplitudes of Fourier spectra of strong earthquake ground...
An empirical model for scaling Fourier Amplitude Spectra of strong earthquake ground acceleration in...
An empirical model for scaling Fourier Amplitude Spectra of strong earthquake ground acceleration in...
The currently available empirical scaling laws for estimation of spectral amplitudes are limited to ...
Three generations of empirical scaling equations, developed by the Strong Motion Research Group at U...
The effects of subsoil conditions on surface ground motion are evaluated in terms of energy spectra....
Empirical scaling equations for Fourier amplitude spectra of strong ground motion are used to descri...
textLocal soil conditions influence the characteristics of earthquake ground shaking and these effec...
textLocal soil conditions influence the characteristics of earthquake ground shaking and these effec...
Nakamura’s method, which uses a horizontal-to-vertical Fourier spectrum ratio of microtremor, has be...
Following some introductory remarks on the key aspects of seismic site effects evaluation and on new...
Following some introductory remarks on the key aspects of seismic site effects evaluation and on new...
This study proposes to use a method of nonlinear, nonstationary data processing and analysis, i.e., ...
The period and amplitude variations of local peaks in the Fourier amplitude spectra of free-field st...
We examine how the decay of high-frequency amplitudes of Fourier spectra of strong earthquake ground...
We examine how the decay of high-frequency amplitudes of Fourier spectra of strong earthquake ground...
An empirical model for scaling Fourier Amplitude Spectra of strong earthquake ground acceleration in...
An empirical model for scaling Fourier Amplitude Spectra of strong earthquake ground acceleration in...
The currently available empirical scaling laws for estimation of spectral amplitudes are limited to ...
Three generations of empirical scaling equations, developed by the Strong Motion Research Group at U...
The effects of subsoil conditions on surface ground motion are evaluated in terms of energy spectra....
Empirical scaling equations for Fourier amplitude spectra of strong ground motion are used to descri...
textLocal soil conditions influence the characteristics of earthquake ground shaking and these effec...
textLocal soil conditions influence the characteristics of earthquake ground shaking and these effec...
Nakamura’s method, which uses a horizontal-to-vertical Fourier spectrum ratio of microtremor, has be...
Following some introductory remarks on the key aspects of seismic site effects evaluation and on new...
Following some introductory remarks on the key aspects of seismic site effects evaluation and on new...
This study proposes to use a method of nonlinear, nonstationary data processing and analysis, i.e., ...
The period and amplitude variations of local peaks in the Fourier amplitude spectra of free-field st...