Add to ORKGThere is a sparse number of credible source models available from large‐magnitude past earthquakes. A stochastic source‐model‐generation algorithm thus becomes necessary for robust risk quantification using scenario earthquakes. We present an algorithm that combines the physics of fault ruptures as imaged in laboratory earthquakes with stress estimates on the fault constrained by field observations to generate stochastic source models for large‐magnitude (M_w 6.0–8.0) strike‐slip earthquakes. The algorithm is validated through a statistical comparison of synthetic ground‐motion histories from a stochastically generated source model for a magnitude 7.90 earthquake and a kinematic finite‐source inversion of an equivalent magnitude past earthq...
Recent studies emphasize the rapid assessment of earthquake source properties, such as moment magnit...
This project seeks to compute ground motions for large (M>6.5) scenario earthquakes on the Haywar...
Accurate prediction of the intensity and variability of strong ground motions for future large eart...
International audienceThere is a sparse number of credible source models available from large-magnit...
There is a sparse number of credible source models available from large-magnitude past earthquakes. ...
There are a sparse number of credible source models available from past earthquakes and a stochastic...
Strong ground motion simulations require physically plausible earthquake source model. Here we prese...
Abstract We present a testable stochastic earthquake source model for intermedi-ate- to long-term fo...
A generalization of the stochastic summation scheme of small earthquakes following a general form of...
One of the challenging tasks in predicting near-source ground motion for future earthquakes is to an...
Kinematic source inversions of past earthquakes in the magnitude range of 6–8 are used to simulate 6...
Abstract In the absence of sufficient data in the very near source, predictions of the intensity and...
High-frequency (~10 Hz) deterministic ground motion simulations are challenged by our understanding ...
Ground motion prediction is an essential element in seismic hazard and risk analysis. Empirical grou...
Understanding the physics of earthquake rupture is critical to providing accurate estimates of seism...
Recent studies emphasize the rapid assessment of earthquake source properties, such as moment magnit...
This project seeks to compute ground motions for large (M>6.5) scenario earthquakes on the Haywar...
Accurate prediction of the intensity and variability of strong ground motions for future large eart...
International audienceThere is a sparse number of credible source models available from large-magnit...
There is a sparse number of credible source models available from large-magnitude past earthquakes. ...
There are a sparse number of credible source models available from past earthquakes and a stochastic...
Strong ground motion simulations require physically plausible earthquake source model. Here we prese...
Abstract We present a testable stochastic earthquake source model for intermedi-ate- to long-term fo...
A generalization of the stochastic summation scheme of small earthquakes following a general form of...
One of the challenging tasks in predicting near-source ground motion for future earthquakes is to an...
Kinematic source inversions of past earthquakes in the magnitude range of 6–8 are used to simulate 6...
Abstract In the absence of sufficient data in the very near source, predictions of the intensity and...
High-frequency (~10 Hz) deterministic ground motion simulations are challenged by our understanding ...
Ground motion prediction is an essential element in seismic hazard and risk analysis. Empirical grou...
Understanding the physics of earthquake rupture is critical to providing accurate estimates of seism...
Recent studies emphasize the rapid assessment of earthquake source properties, such as moment magnit...
This project seeks to compute ground motions for large (M>6.5) scenario earthquakes on the Haywar...
Accurate prediction of the intensity and variability of strong ground motions for future large eart...