Numerical Modeling of Earthquake Ground Motion, Seismic Noise, Rupture Dynamics and Seismic Wave Propagation
Date: 4/25/2019
Time: 8:30 AM to 3:00 PM
Room: Elliott Bay
Continuous development of numerical modeling methodology in seismology is driven by emerging requirements in the observational seismology, advances in the mathematical sciences, evolution of computer architectures and programming models, adaptation of methods originating in other scientific fields, as well as by practical applications including site-specific seismic hazard assessment. This session is a forum for presenting advances in numerical methodology, whether the principal context is observational, mathematical/numerical, computational or application.
We invite contributions focused on development, verification and validation of numerical-modeling methods and methodologically important applications especially to earthquake ground motion, seismic noise and rupture dynamics, including applications from field of induced seismicity with particular focus on multi-physics aspects. Examples may include combining fluid migration and stress transfer in porous media with rupture dynamics and wave propagation in poro-elastic media and full seismic cycle simulations. We encourage contributions on the analysis of methods, fast algorithms, high-performance implementations, large-scale simulations, non-linear behavior, multi-scale problems and confrontation of methods with data.
Conveners
Peter Moczo, Comenius University in Bratislava (moczo@fmph.uniba.sk)
Steven M. Day, San Diego State University (sday@sdsu.edu)
Jozef Kristek, Comenius University in Bratislava (kristek@fmph.uniba.sk)
Oral Presentations
| Participant Role | Details | Start Time | Minutes | Action |
|---|---|---|---|---|
| Submission | The Internal Structure of the Dead Sea Transform and Ground Motions in Northern Israel | 08:30 AM | 15 | View |
| Submission | 3D Simulation of Large San Andreas Scenario Earthquakes Using a Multi-Surface Plasticity Model | 08:45 AM | 15 | View |
| Submission | Effects of Structural Parameters on Characteristics of Earthquake Ground Motion in Water-Saturated Sedimentary Basins | 09:00 AM | 15 | View |
| Submission | Validation of Ground Motions From a Deterministic Earthquake Sequence Simulator | 09:15 AM | 15 | View |
| Submission | Homogenization and Very High Degree Spectral Elements for Elastic and Acoustic Waves Propagation in Multi-Scale Geological Media | 09:30 AM | 15 | View |
| Other Time | Posters and Break | 09:45 AM | 60 | |
| Submission | Dynamic Rupture and Strong Ground Motion Simulations Performed on the Northern and Eastern Boundaries of the Sichuan-Yunnan Block, China | 10:45 AM | 15 | View |
| Submission | Pushing the Limits of Regional-Scale Fully Deterministic Large Earthquake Ground Motion Simulations on High-Performance Computers with Three-Dimensional Earth Structure and Topography: Hayward Fault Scenarios and Generic Ruptures in Simple Models | 11:00 AM | 15 | View |
| Submission | The Existence and Cessation of the Free-Surface-Induced Supershear Rupture: Depth-Dependent Stress Effects | 11:15 AM | 15 | View |
| Submission | Stick-Slip Induced Source Ground Vibration in Sheared Granular Fault | 11:30 AM | 15 | View |
| Submission | Numerical Modeling of Experimental Rock Friction Data for Rough Surfaces | 11:45 AM | 15 | View |
| Other Time | Luncheon | 12:00 PM | 105 | |
| Submission | Mechanical Weakening of Near-Surface Rock Layers Due to the Scattering of Seismic Waves | 01:45 PM | 15 | View |
| Submission | A CyberShake PSHA Model for Northern California | 02:00 PM | 15 | View |
| Submission | Dynamic Rupture Modeling on the Hayward Fault, Northern California – Estimating Coseismic and Postseismic Hazards of Partially Creeping Faults | 02:15 PM | 15 | View |
| Submission | Finite Frequency Sensitivity Kernel for the Differential Measurements of Ambient Noise Correlations: Theory and Numerical Tests | 02:30 PM | 15 | View |
| Submission | Broad Band Trajectory Mechanics | 02:45 PM | 15 | View |
| Total: | 390 Minute(s) |
Numerical Modeling of Earthquake Ground Motion, Seismic Noise, Rupture Dynamics and Seismic Wave Propagation
Description