Eric M. Thompson’s research while affiliated with United States Geological Survey and other places

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Publications (1)


Partitioning Ground Motion Uncertainty When Conditioned on Station Data
  • Article

January 2022

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114 Reads

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12 Citations

Bulletin of the Seismological Society of America

Davis T. Engler

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Eric M. Thompson

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Kishor S. Jaiswal

Rapid estimation of earthquake ground shaking and proper accounting of associated uncertainties in such estimates when conditioned on strong-motion station data or macroseismic intensity observations are crucial for downstream applications such as ground failure and loss estimation. The U.S. Geological Survey ShakeMap system is called upon to fulfill this objective in light of increased near-real-time access to strong-motion records from around the world. Although the station data provide a direct constraint on shaking estimates at specific locations, these data also heavily influence the uncertainty quantification at other locations. This investigation demonstrates methods to partition the within- (phi) and between-event (tau) uncertainty estimates under the observational constraints, especially when between-event uncertainties are heteroscedastic. The procedure allows the end users of ShakeMap to create separate between- and within-event realizations of ground-motion fields for downstream loss modeling applications in a manner that preserves the structure of the underlying random spatial processes.

Citations (1)


... At its core, ShakeMap software is a seismologically-based data interpolator that relies on parametric ground motion data, GMMs and local site amplifications. Maps of ShakeMap uncertainties are calculated based on the spatial variability of peak ground motions (which is assumed to be zero at the recording stations and increases with distance) and on the total variability of the implemented GMMs (Worden et al., 2018;Engler et al., 2022). However, shakemaps are generated for a single earthquake source, with first parameter estimates typically available within 30 min of the earthquake's origin time. ...

Reference:

ProbShakemap: A Python toolbox propagating source uncertainty to ground motion prediction for urgent computing applications
Partitioning Ground Motion Uncertainty When Conditioned on Station Data
  • Citing Article
  • January 2022

Bulletin of the Seismological Society of America