2A web application has been developed, which offers a simplified approach to the computation of synthetic ground shaking scenarios, hiding behind a user-friendly graphical interface the great complexity of the computational engine. There is no steep learning curve to be followed before the user can generate a ground shaking scenario. This is particularly true for the design and execution of quick parametric tests in laterally homogeneous layered models, where the source or layer properties are varied, and the effects (or lack thereof) of their variation on the ground shaking can be immediately verified in the obtained scenarios. The simplest modeling executes in just a few seconds, with most of those seconds spent waiting for the scheduler ...
Simulated earthquake motions suitable for design calculations are generated with the aid of a digita...
The input for the seismic risk analysis can be expressed with a description of "groundshaking scenar...
We present a methodology for developing realistic synthetic strong ground motions for specific sites...
2Reliable assessments of ground shaking scenarios with the aid of computers before the occurrence of...
A web application prototype has been developed, that enables scientists to compute a wide set of syn...
Recent advances in the physical knowledge of seismic waves generation and propagation processes, alo...
Seismic hazard assessment can be performed following a neo-deterministic approach (NDSHA), which all...
Seismology and engineering seismology have been dramatically affected by the emergence of high-perfo...
A novel method of model-independent probabilistic seismic hazard analysis(PSHA) and ground motion si...
With the ongoing progress of computing power made available not only by large supercomputer faciliti...
In the presentation, we describe the computational workflow and results of the June 2018 version (v1...
The study illustrates probabilistic ground shaking hazard analyses and risk assessment in the near f...
This paper presents a novel method of data-based probabilistic seismic hazard analysis (PSHA) and gr...
Current computational resources and physical knowledge of the seismic wave generation and propagatio...
Seismic hazard assessment can be performed following a neo-deterministic approach (NDSHA), which all...
Simulated earthquake motions suitable for design calculations are generated with the aid of a digita...
The input for the seismic risk analysis can be expressed with a description of "groundshaking scenar...
We present a methodology for developing realistic synthetic strong ground motions for specific sites...
2Reliable assessments of ground shaking scenarios with the aid of computers before the occurrence of...
A web application prototype has been developed, that enables scientists to compute a wide set of syn...
Recent advances in the physical knowledge of seismic waves generation and propagation processes, alo...
Seismic hazard assessment can be performed following a neo-deterministic approach (NDSHA), which all...
Seismology and engineering seismology have been dramatically affected by the emergence of high-perfo...
A novel method of model-independent probabilistic seismic hazard analysis(PSHA) and ground motion si...
With the ongoing progress of computing power made available not only by large supercomputer faciliti...
In the presentation, we describe the computational workflow and results of the June 2018 version (v1...
The study illustrates probabilistic ground shaking hazard analyses and risk assessment in the near f...
This paper presents a novel method of data-based probabilistic seismic hazard analysis (PSHA) and gr...
Current computational resources and physical knowledge of the seismic wave generation and propagatio...
Seismic hazard assessment can be performed following a neo-deterministic approach (NDSHA), which all...
Simulated earthquake motions suitable for design calculations are generated with the aid of a digita...
The input for the seismic risk analysis can be expressed with a description of "groundshaking scenar...
We present a methodology for developing realistic synthetic strong ground motions for specific sites...