We present a novel approach for resolving modes of rupture directivity in large populations of earthquakes. A seismic spectral decomposition technique is used to first produce relative measurements of radiated energy for earthquakes in a spatially compact cluster. The azimuthal distribution of energy for each earthquake is then assumed to result from one of several distinct modes of rupture propagation. Rather than fitting a kinematic rupture model to determine the most likely mode of rupture propagation, we instead treat the modes as latent variables and learn them with a Gaussian mixture model. The mixture model simultaneously determines the number of events that best identify with each mode. The technique is demonstrated on four datasets...
Earthquake onsets provide a unique opportunity to study physical rupture processes because they are ...
Despite the surge of great earthquakes along subduction zones over the last decade and advances in o...
Physics-based ground-motion simulation requires the development of physically self-consistent source...
We present a novel approach for resolving modes of rupture directivity in large populations of earth...
We have developed a forward modeling technique to retrieve rupture characteristics of small earthqu...
Rapid estimates of earthquake rupture properties are useful for both scientific characterization of ...
We examine the radiated waves emitted by events on a model fault. The model deterministically produc...
5p.International audienceThe direction of propagation is an important factor that affects the patter...
Determining principles and conditions governing motion along faults is crucial for assessing how ear...
This article has been accepted for publication in Geophysical Journal Internationa ©: 2016 Published...
To understand the physics of earthquake rupture mechanics, we have to relate seismologically observa...
Directivity effects are a characteristic of seismic source finiteness and are a consequence of the r...
Recent studies emphasize the rapid assessment of earthquake source properties, such as moment magnit...
We present a new approach to estimate the predominant direction of rupture propagation during a sei...
To accurately estimate the seismic energy radiated in an earthquake, it is important to use appropri...
Earthquake onsets provide a unique opportunity to study physical rupture processes because they are ...
Despite the surge of great earthquakes along subduction zones over the last decade and advances in o...
Physics-based ground-motion simulation requires the development of physically self-consistent source...
We present a novel approach for resolving modes of rupture directivity in large populations of earth...
We have developed a forward modeling technique to retrieve rupture characteristics of small earthqu...
Rapid estimates of earthquake rupture properties are useful for both scientific characterization of ...
We examine the radiated waves emitted by events on a model fault. The model deterministically produc...
5p.International audienceThe direction of propagation is an important factor that affects the patter...
Determining principles and conditions governing motion along faults is crucial for assessing how ear...
This article has been accepted for publication in Geophysical Journal Internationa ©: 2016 Published...
To understand the physics of earthquake rupture mechanics, we have to relate seismologically observa...
Directivity effects are a characteristic of seismic source finiteness and are a consequence of the r...
Recent studies emphasize the rapid assessment of earthquake source properties, such as moment magnit...
We present a new approach to estimate the predominant direction of rupture propagation during a sei...
To accurately estimate the seismic energy radiated in an earthquake, it is important to use appropri...
Earthquake onsets provide a unique opportunity to study physical rupture processes because they are ...
Despite the surge of great earthquakes along subduction zones over the last decade and advances in o...
Physics-based ground-motion simulation requires the development of physically self-consistent source...