International audienceWe present a new approach for performing broad-band ground motion time histories (0.1–30 Hz) of a future earthquake in a sedimentary basin. Synthetics are computed with an hybrid scheme combining reciprocity-based 3-D-spectral element method simulations at low frequencies and empirical Green's functions (EGF) at high frequencies. The combination between both deterministic and empirical parts results in a set of hybrid Green's functions, summed according to a new k−2 kinematic model algorithm. The summation technique enables to remove the high-frequency artefacts that appear above the EGF corner frequency. The ground motion variability is assessed by generating a variety of source parameter sets selected from a priori p...
Abstract A method for simulating strong ground motion for a large earthquake based on synthetic Gree...
La prédiction des mouvements du sol générés par un séisme est un enjeu majeur pour la prise en compt...
Abstract We quantitatively evaluate the validity of an approach to calculating strong ground motion ...
International audienceWe present a new approach for performing broad-band ground motion time histori...
We present a new approach for performing broad-band ground motion time histories (0.1-30 Hz) of a fu...
International audienceThe empirical Green's functions (EGF) technique is used to investigate two met...
ABSTRACT- We propose a new approach to perform reliable seismic ground motion predictions for a futu...
The prediction of realistic ground motion produced by a hypothetical future earthquake is a fundamen...
International audienceThe use of simulated accelerograms may improve the evaluation of the seismic h...
New methods of site-specific ground motion prediction in the time and frequency domains are presente...
A key limitation of seismic wave propagation simulations is that the seismic wave-speed structure of...
International audienceWe developed a ground-motion simulation code base on extended rupture modeling...
This report outlines a method of using empirical Green's functions in an earthquake simulation progr...
Abstract A method for simulating strong ground motion for a large earthquake based on synthetic Gree...
La prédiction des mouvements du sol générés par un séisme est un enjeu majeur pour la prise en compt...
Abstract We quantitatively evaluate the validity of an approach to calculating strong ground motion ...
International audienceWe present a new approach for performing broad-band ground motion time histori...
We present a new approach for performing broad-band ground motion time histories (0.1-30 Hz) of a fu...
International audienceThe empirical Green's functions (EGF) technique is used to investigate two met...
ABSTRACT- We propose a new approach to perform reliable seismic ground motion predictions for a futu...
The prediction of realistic ground motion produced by a hypothetical future earthquake is a fundamen...
International audienceThe use of simulated accelerograms may improve the evaluation of the seismic h...
New methods of site-specific ground motion prediction in the time and frequency domains are presente...
A key limitation of seismic wave propagation simulations is that the seismic wave-speed structure of...
International audienceWe developed a ground-motion simulation code base on extended rupture modeling...
This report outlines a method of using empirical Green's functions in an earthquake simulation progr...
Abstract A method for simulating strong ground motion for a large earthquake based on synthetic Gree...
La prédiction des mouvements du sol générés par un séisme est un enjeu majeur pour la prise en compt...
Abstract We quantitatively evaluate the validity of an approach to calculating strong ground motion ...