Scientific Visualization for Earthquake Science and Simulation Louise Kellogg, Tony Bernardin, Eric...
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Scientific Visualization for Earthquake Science and Simulation Louise Kellogg, Tony Bernardin, Eric Cowgill, Oliver Kreylos, Mike Oskin, John Rundle, Donald L. Turcotte, M. Burak Yikilmaz UC Davis: Geology, Computer Science, & KeckCAVES Earthscope data Seismic Tomography model (Obrebski, et al 2010)
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Transcript of Scientific Visualization for Earthquake Science and Simulation Louise Kellogg, Tony Bernardin, Eric...
Scientific Visualization for Earthquake Science and Simulation
Louise Kellogg, Tony Bernardin, Eric Cowgill, Oliver Kreylos, Mike Oskin, John Rundle, Donald L. Turcotte,
M. Burak YikilmazUC Davis: Geology, Computer Science, & KeckCAVES
Earthscope data Seismic Tomography model (Obrebski, et al 2010)
Scientific visualization research for natural hazards at the KeckCAVES
Virtual Reality User Interface (VRUI)
A platform-independent foundation for development of virtual reality
applications
Lidar Viewer
EarthViewer
Crusta 3DVisualizer
CAVES3D TV
Desktop Laptop
Haiti: January 12, 2010Mw 7.0
• 200,000 – 300,000 fatalities.
• Massive damage from building collapse including houses, govt. buildings, UN headquarters, airport.
Analysis of high-resolution airborne and terrestrial LIDAR after recent events
• Goal:– support rescue and recovery
first – and then to support science
• ~2.7 billion individual point measurements in (3D) space; 66.8 GB on disk
• January 21 – 27, 2010, an area of 850 km2 surveyed using airborne LiDAR at an average density of ~3.2 points/m2
• Funded by World Bank, coordinated by USGS, collected by Rochester Institute of Technology
Working with LIDAR point cloud data
Mapping the fault system
Remote mapping
• Guided field work• Gave consistent
results as found in the field
• Can improve quality and quantity of rapid scientific response
We concluded that the 2010 earthquake was a relatively small event between the
1751 and 1770 ruptures.
El Mayor-Cucapah M 7.2 April 2010
El Mayor-Cucapah M 7.2 April 2010
Credit: Mike Oskin, Ramon Arrowsmith, Alejandro Hinojosa, and Javier Gonzalez
Removing vegetation from LIDAR data
Interactive scientific visualization for rapid response
• Interactive visualization in a VR environment has the potential to completely change rapid scientific response to events
• Visualization of these very large datasets is challenging, but feasible, using octree data representation.
• Human-in-the-loop is essential to interpretation (combined with automated methods)
• Underway: change detection (time series)• Future developments: Coupling data interpretations
with simulations
