Region Specific Ground-Motion Predictive Models for Shallow Active Regions

Abdullah İçen; M. Abdullah Sandikkaya

doi:10.1080/13632469.2023.2167890

Region Specific Ground-Motion Predictive Models for Shallow Active Regions

Abdullah İçen
, M. Abdullah Sandikkaya

Division of Geotechnics

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Using a global dataset, we propose a series of ground-motion predictive models for acceleration response spectra. The proposed models include regional adjustments to source, path, and site terms with nonlinear soil behavior. The regression coefficients are computed using linear and nonlinear mixed-effect regression algorithms. Furthermore, we develop heteroscedastic variability models for between-event, site-to-site, and single-site standard deviations. The between-event sigma model depends solely on magnitude, but the single-site standard deviation model depends on both magnitude and distance. Finally, the site-to-site standard deviation model is given in terms of V_S30 and spectral acceleration at rock site condition.

Original language	English
Pages (from-to)	4449-4468
Number of pages	20
Journal	Journal of Earthquake Engineering
Volume	27
Issue number	15
DOIs	https://doi.org/10.1080/13632469.2023.2167890
Publication status	Published - 2023

Keywords

Ground-motion predictive model
heteroscedastic variability
nonlinear site amplification
regional corrections
spectral accelerations

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10.1080/13632469.2023.2167890

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title = "Region Specific Ground-Motion Predictive Models for Shallow Active Regions",

abstract = "Using a global dataset, we propose a series of ground-motion predictive models for acceleration response spectra. The proposed models include regional adjustments to source, path, and site terms with nonlinear soil behavior. The regression coefficients are computed using linear and nonlinear mixed-effect regression algorithms. Furthermore, we develop heteroscedastic variability models for between-event, site-to-site, and single-site standard deviations. The between-event sigma model depends solely on magnitude, but the single-site standard deviation model depends on both magnitude and distance. Finally, the site-to-site standard deviation model is given in terms of VS30 and spectral acceleration at rock site condition.",

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language = "English",

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TY - JOUR

T1 - Region Specific Ground-Motion Predictive Models for Shallow Active Regions

AU - İçen, Abdullah

AU - Sandikkaya, M. Abdullah

PY - 2023

Y1 - 2023

N2 - Using a global dataset, we propose a series of ground-motion predictive models for acceleration response spectra. The proposed models include regional adjustments to source, path, and site terms with nonlinear soil behavior. The regression coefficients are computed using linear and nonlinear mixed-effect regression algorithms. Furthermore, we develop heteroscedastic variability models for between-event, site-to-site, and single-site standard deviations. The between-event sigma model depends solely on magnitude, but the single-site standard deviation model depends on both magnitude and distance. Finally, the site-to-site standard deviation model is given in terms of VS30 and spectral acceleration at rock site condition.

AB - Using a global dataset, we propose a series of ground-motion predictive models for acceleration response spectra. The proposed models include regional adjustments to source, path, and site terms with nonlinear soil behavior. The regression coefficients are computed using linear and nonlinear mixed-effect regression algorithms. Furthermore, we develop heteroscedastic variability models for between-event, site-to-site, and single-site standard deviations. The between-event sigma model depends solely on magnitude, but the single-site standard deviation model depends on both magnitude and distance. Finally, the site-to-site standard deviation model is given in terms of VS30 and spectral acceleration at rock site condition.

KW - Ground-motion predictive model

KW - heteroscedastic variability

KW - nonlinear site amplification

KW - regional corrections

KW - spectral accelerations

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JO - Journal of Earthquake Engineering

JF - Journal of Earthquake Engineering

IS - 15

ER -

Region Specific Ground-Motion Predictive Models for Shallow Active Regions

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Keywords

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