Comparison of Nonergodic Ground-Motion Components from CyberShake and NGA-West2 Datasets in California

Author:

Meng Xiaofeng1ORCID,Goulet Christine12ORCID,Milner Kevin1ORCID,Graves Robert2,Callaghan Scott1

Affiliation:

1. 1Southern California Earthquake Center, University of Southern California, Los Angeles, California, U.S.A.

2. 2U.S. Geological Survey, Pasadena, California, U.S.A.

Abstract

ABSTRACTIn this study, we compare the Southern California Earthquake Center CyberShake platform against the Next Generation Attenuation-West2 empirical datasets. Because the CyberShake and empirical datasets cover very different magnitude ranges and site conditions, we develop ground-motion models (GMMs) for CyberShake datasets to compare trends with empirical GMMs and decompose the residuals for further analysis. We apply mixed effects regression to four CyberShake datasets in southern, central, and northern California at 2, 3, 5, and 10 s periods, and compare the results with the empirical datasets using the same approach. CyberShake captures the total variability of ground motions in the empirical datasets but tends to predict larger median ground motions relative to the empirical GMMs. We then calculate and compare the repeatable source-specific location, site, and path effects between CyberShake and empirical datasets. We find that the correlations of site effects between the CyberShake and empirical datasets are generally satisfactory, but the variability of site effects is slightly smaller for CyberShake datasets. There is no apparent correlation of source-specific location effects between the CyberShake and empirical datasets. Comparison of path effects shows a wide range of correlation coefficients. Finally, we investigate the source of observed differences between the CyberShake and empirical datasets. We attribute the larger median ground-motion levels in CyberShake to a combination of the homogeneous slip patterns of the earthquake ruptures, the low resolution of near-surface materials in the velocity models, and strong reflections at high-contrast boundaries in the velocity models. These factors also impact the correlations of site and path effects between the CyberShake and empirical datasets. Moreover, the leakage from location effects into site and path terms further weakens the correlations. In summary, we find that CyberShake could be improved, but it is still very useful to supplement empirical datasets for ground-motion studies, especially to inform their nonergodic components.

Publisher

Seismological Society of America (SSA)

Subject

Geochemistry and Petrology,Geophysics

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