Numerical Modeling of Rupture Dynamics, Earthquake Ground Motion and Seismic Noise [Poster]
Faithfully modeling rupture propagation, seismic wave propagation and earthquake ground motion in increasingly complex models of the Earth’s interior requires algorithmically advanced and computationally efficient numerical-modeling methods. These methods are often developed in response to challenges imposed by new data but sometimes due to progress in mathematical and numerical methodology itself. Evolution of the HPC infrastructure further facilitates and influences numerical modeling in seismology.
We invite contributions focused on development, verification and validation of numerical-modeling methods as well as important applications of the methods especially to rupture dynamics, seismic wave propagation, earthquake ground motion including non-linear behavior, seismic noise and earthquake hazard.
Applications to compelling observational issues in seismology are especially welcome.
We also encourage contributions on the analysis of methods, fast algorithms, high-performance implementations and large-scale simulations.
Conveners
Peter Moczo, Comenius University Bratislava (moczo@fmph.uniba.sk); Steven M. Day, San Diego State University (sday@sdsu.edu); Jozef Kristek, Comenius University Bratislava (kristek@fmph.uniba.sk); Martin Galis, Comenius University Bratislava (martin.galis@uniba.sk)
Poster Presentations
| Participant Role | Details | Action |
|---|---|---|
| Submission | Deterministic Large-Scale Wavefield Simulations Carried Out at Service Hall Array and Their Validation Using Nga-West2 Suit of GMPEs | View |
| Submission | Assessment of the Variability of Basin Nonlinearity and Near-Field Ground Motion in Kathmandu, Nepal Due to Obliquely Incident Seismic Waves | View |
| Submission | A Machine Learning Approach to Developing Ground Motion Models From Simulated Ground Motions | View |
| Submission | Validation of Broadband Ground Motion From Dynamic Rupture Simulations: Towards Better Characterizing Seismic Hazard for Engineering Applications | View |
| Submission | A High Order End to End Octree-Based Finite Element Solver | View |
| Submission | Relationships Between Dynamic Strains and Ground Motions from Numerical Simulations of Elastic Wave Propagation | View |
| Submission | An Empirical Ground-Motion Prediction Model for Induced Earthquakes in Central and Eastern United States | View |
| Submission | Fully Nonergodic Ground Motion Models in Central and Northern California Using NGA-West2 and SCEC Cybershake Datasets | View |
Numerical Modeling of Rupture Dynamics, Earthquake Ground Motion and Seismic Noise [Poster]
Description