We argue that for critical structures near large earthquake sources: (1) the ergodic assumption, recent history, and simplified descriptions of the hazard are not appropriate to rely on for earthquake ground motion prediction and can lead to a mis-estimation of the hazard and risk to structures; (2) a physics-based approach can address these issues; (3) a physics-based source model must be provided to generate realistic phasing effects from finite rupture and model near-source ground motion correctly; (4) wave propagations and site response should be site specific; (5) a much wider search of possible sources of ground motion can be achieved computationally with a physics-based approach; (6) unless one utilizes a physics-based approach, the ...
Accurate prediction of ground motion intensity and its variability is an important element in seismi...
Lessons learnt from the destructive earthquakes occurred during the new millennium provide new oppor...
We propose a recipe for the prediction of strong ground motion based on the most recent findings of ...
We present a physically based methodology to predict the range of ground-motion hazard for earthquak...
The purpose of this thesis is to provide a detailed description of recent methods and scientific bas...
Seismic hazard analyses (SHA) are routinely carried out around the world to understand the hazard, a...
International audienceFor years the ground motion prediction (GMM) in seismic hazard (SHA) has been ...
ABSTRACT Accurate prediction of the intensity and variability of strong ground motions for future la...
The definition of realistic seismic input can be obtained from the computation of a wide set of time...
Earthquakes damage engineering structures near, relatively to the rupture's size, to the source. In ...
The input for the seismic risk analysis can be expressed with a description of "groundshaking scenar...
Accurate prediction of the intensity and variability of strong ground motions for future large eart...
The input for the seismic risk analysis can be expressed with probabilistic maps of perhaps relevant...
This paper tests a new approach to predict a range of ground motion hazard at specific sites generat...
Developments in seismic hazard analysis over the last few decades are overviewed, and a perspective ...
Accurate prediction of ground motion intensity and its variability is an important element in seismi...
Lessons learnt from the destructive earthquakes occurred during the new millennium provide new oppor...
We propose a recipe for the prediction of strong ground motion based on the most recent findings of ...
We present a physically based methodology to predict the range of ground-motion hazard for earthquak...
The purpose of this thesis is to provide a detailed description of recent methods and scientific bas...
Seismic hazard analyses (SHA) are routinely carried out around the world to understand the hazard, a...
International audienceFor years the ground motion prediction (GMM) in seismic hazard (SHA) has been ...
ABSTRACT Accurate prediction of the intensity and variability of strong ground motions for future la...
The definition of realistic seismic input can be obtained from the computation of a wide set of time...
Earthquakes damage engineering structures near, relatively to the rupture's size, to the source. In ...
The input for the seismic risk analysis can be expressed with a description of "groundshaking scenar...
Accurate prediction of the intensity and variability of strong ground motions for future large eart...
The input for the seismic risk analysis can be expressed with probabilistic maps of perhaps relevant...
This paper tests a new approach to predict a range of ground motion hazard at specific sites generat...
Developments in seismic hazard analysis over the last few decades are overviewed, and a perspective ...
Accurate prediction of ground motion intensity and its variability is an important element in seismi...
Lessons learnt from the destructive earthquakes occurred during the new millennium provide new oppor...
We propose a recipe for the prediction of strong ground motion based on the most recent findings of ...