Thread: AGU Session S010: Earthquake Ground Motion Simulation (Rupture Dynamics and Seismic Wave Propagation): Theory, Validation and Application

Started: 2019-07-01 10:01:38
Last activity: 2019-07-01 10:01:38
Topics: AGU Meetings
Dear Colleagues,

Please consider submitting an abstract to the session below at the 2019 AGU Fall Meeting in San Francisco.

AGU Session S010: Earthquake Ground Motion Simulation (Rupture Dynamics and Seismic Wave Propagation): Theory, Validation and Application

The session will bring together researchers with new results from development, verification and validation of numerical ground motion simulations based on dynamic rupture and seismic wave propagations, and their applications in real earthquakes. Examples may include but not limit to 1) macro- or microscopical fault geometry, 2) plasticity adjacent to faults or sites, 3) branched or segmented faults, 4) intrinsic and scattering attenuation, and 5) ground surface topography. We also encourage results of cutting-edge techniques in HPC.

Invited Speakers:

Eric Dunham (Stanford University), Xiaofei Chen (Southern University of Science and Technology)


Abstract submission deadline: Wednesday, 31 July 2019

We look forward to seeing you in San Francisco!

Best Regards,

Conveners:

Yongfei Wang (Southern California Earthquake Center)
Kyle Withers (United States Geological Survey)
Feng Hu (University of Science and Technology of China)
Thomas Ulrich (Ludwig Maximilians University of Munich)
Dunyu Liu (Texas A&M University College Station)



S010 - Earthquake Ground Motion Simulation (Rupture Dynamics and Seismic Wave Propagation): Theory, Validation and Application.
Submit an Abstract to this Session
https://agu.confex.com/agu/fm19/s/papers/index.cgi?sessionid=78152Continuous development of numerical modeling methodology in seismology is driving us towards better understanding earthquake phenomena and seismic hazards in a broad span of source, path and site. In areas of infrequent seismicity or 3D complicated geological structure, earthquake ground motions provide accessible approaches to improving the prediction of ground motions for mitigating seismic hazards.
In this session, we invite contributions focused on development, verification and validation of numerical ground motion simulations based on dynamic rupture and seismic wave propagations, and their applications (from previously occurred earthquakes to potential seismic hazard at a specific site). Examples may include but not limit to: 1) macro- and microscopical fault geometry, 2) plasticity adjacent to faults or sites, 3) rupture dynamics on branched or segmented faults, 4) intrinsic and scattering attenuation, and 5) ground surface topography. We also encourage contributions on the analysis of relevant methods, fast algorithms, high-performance implementations and large-scale simulations.
Primary Convener
Yongfei Wang https://agu.confex.com/agu/fm19/prelim.cgi/Person/92268
University of California San Diego
San Diego State University
Southern California Earthquake Center
Conveners
Feng Hu https://agu.confex.com/agu/fm19/prelim.cgi/Person/34372
University of Science and Technology of China
Thomas Ulrich https://agu.confex.com/agu/fm19/prelim.cgi/Person/760184
Ludwig Maximilians University of Munich
Dunyu Liu https://agu.confex.com/agu/fm19/prelim.cgi/Person/22162
Texas A&M University College Station

Primary Liaison

K https://agu.confex.com/agu/fm19/prelim.cgi/Person/22162yle Withers
USGS National Earthquake Information Center


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