Undergraduate Research Experience (REU), NHERI 2019: A Stochastic Ground Motion Simulation Model Developed for Shallow Crustal Earthquakes Evaluated in a Subduction Zone Setting

Haley Hostetter

doi:10.17603/ds2-mz7g-jk26

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PRJ-2519 | Undergraduate Research Experience (REU), NHERI 2019: A Stochastic Ground Motion Simulation Model Developed for Shallow Crustal Earthquakes Evaluated in a Subduction Zone Setting

Cite This Data:

Hostetter, H (2019). Undergraduate Research Experience (REU), NHERI 2019: A Stochastic Ground Motion Simulation Model Developed for Shallow Crustal Earthquakes Evaluated in a Subduction Zone Setting. DesignSafe-CI. https://doi.org/10.17603/ds2-mz7g-jk26

Authors
Data Type(s)	REU
Date of Publication	2019-09-16
Facilities
Awards
Keywords	NHERI SimCenter, Python, stochastic ground motion simulation model, analysis
DOI	10.17603/ds2-mz7g-jk26
License	Creative Commons Public Domain Dedication

Description:

Analyzed the applicability of a stochastic ground motion simulation model for faulting types it was not developed for. The analysis of the model was performed using the November 2018 Anchorage, Alaska, subduction zone earthquake record. Results showing the possible application of the model to this faulting type are recorded in the paper. Several common ground motion intensity measures were computed and analyzed using Python. These include peak ground acceleration, Arias intensity, significant duration, and response spectra.