Date: 4/22/2021
Session Time: 3:45 PM to 4:45 PM Pacific
Physics-Based Earthquake Rupture Modeling and Strong Motion Simulations
Advancements in high-performance computing, improved understanding of physical processes during earthquake rupture and an increased number of observations of seismic events have contributed to the development of high-resolution seismic velocity models and numerical techniques for simulating earthquake ground motion for engineering applications. The integration of this multidisciplinary knowledge into fault-to-structure simulation techniques requires interaction between earth scientists and earthquake engineers. This session will focus on state-of-the-art research on kinematic and dynamic rupture modeling, computational aspects of ground motion modeling and verification of simulation techniques in building response analysis. We welcome studies focused on all aspects of physics-based earthquake rupture modeling and 3D wave propagation modeling, including: simulations incorporating free-surface topography, small-scale heterogeneity superimposed on deterministic velocity models, linear and non-linear constitutive material models, representation of near-surface geotechnical soil properties in site response, large-scale ground motion simulation on HPC platforms as well as simulations of ground motion variability and building response. Additionally, we encourage submissions related to implementing information from ground motion simulation research into targets for engineering constraints and their application in seismic hazard assessment, as well as theoretical and numerical modeling approaches addressing recordings with emerging sensor technologies such as DAS and rotational sensors.
Conveners
Arben Pitarka, Lawrence Livermore National Laboratory (pitarka1@llnl.gov)
Alice Gabriel, University of California (gabriel@geophysik.uni-muenchen.de)
Kyle Withers, Geologic Hazards Science Center, U.S. Geological Survey (kwithers@usgs.gov)
František Gallovič, Charles University (gallovic@karel.troja.mff.cuni.cz)
Arthur Rodgers, Lawrence Livermore National laboratory (rodgers7@llnl.gov)
Poster Presentations
| Participant Role | Details | Action |
|---|---|---|
| Submission | The Enhancement of Coseismic Slip and Ground Motion Due to the Accretionary Wedge and Sedimentary Layer in the 2011 Tohoku-Oki Earthquake | View |
| Submission | Estimate of Earthquake Potential from Dynamic Rupture Simulation Along the Anninghe Fault, Sichuan, China | View |
| Submission | Constraining Stochastic Slip Rupture Models with Geodetic Coupling Models: An Example Application to PTHA at the Cascadia Subduction Zone | View |
| Submission | Source and Path Effects Analysis From a Series of Sw4 Simulations of Mw 7.0 Earthquake Ground-Motions in Three-Dimensional Earth Models | View |
| Submission | MCMC-MTpy: A Python Package for Simultaneous Inversion of Source Location, Focal Mechanism and Rupture Directivity | View |
| Submission | Validation and Calibration of Simulation Parameters for the Marmara Region Through Stochastic Simulation of the 26 September 2019 Mw 5.8 Silivri Earthquake | View |
| Submission | Validation of Broadband CyberShake Simulations | View |
| Submission | Dynamic Source Scenarios Constrained by NGA-West2 GMPEs | View |
| Submission | 3D 0-5 Hz Wave Propagation Simulations of the 2014 Mw5.1 La Habra Earthquake With Small-Scale Heterogeneities, Q(f) and Topography | View |
| Submission | Impact of CyberShake on Risk Assessments for Distributed Infrastructure Systems | View |
Physics-Based Earthquake Rupture Modeling and Strong Motion Simulations [Poster]
Description
Type: Poster
Date: 4/22/2021
Time: 3:45 PM to 4:45 PM Pacific