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Main Authors: Su, Maijia, Dabaghi, Mayssa, Broccardo, Marco
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.07401
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author Su, Maijia
Dabaghi, Mayssa
Broccardo, Marco
author_facet Su, Maijia
Dabaghi, Mayssa
Broccardo, Marco
contents Stochastic ground motion models (GMMs) are gaining popularity and momentum among engineers to perform time-history analysis of structures and infrastructures. This paper aims to review and validate hierarchical stochastic GMMs, with a focus on identifying their ''optimal'' configuration. We introduce the word ''hierarchical'' as its formulation contains two steps:(1) selecting a modulated filtered white noise model (MFWNM) to replicate a target record and (2) constructing a joint probability density function (PDF) for the parameters of the selected MFWNM, accounting for the record-to-record variability. In the first step, we review the development of MFWNMs and explore the ''optimal'' modeling of time-varying spectral content. Specifically, we investigate different frequency filters (single- and multi-mode) and various trends (constant, linear, and non-parametric) to describe the filters' time-varying properties. In the second step, the joint PDF is decomposed into a product of marginal distributions and a correlation structure, represented by copula models. We explore two copula models: the Gaus-sian copula and the R-vine copula. The hierarchical GMMs are evaluated by comparing specific statistical metrics, calculated from 1,001 real strong motions, with those derived from their corresponding synthetic dataset. Based on the selected validation metrics, we conclude that (1) Hierarchical stochastic GMMs can generate ground motions with high statistical compatibility to the real datasets, in terms of four key intensity measures and linear- and nonlinear-response spectra; (2) A parsimonious 11-parameter MFWNM, incorporating either the Gaussian copula or the R-vine copula, offers sufficient and similar accuracy.
format Preprint
id arxiv_https___arxiv_org_abs_2411_07401
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Review and Validation of Stochastic Ground Motion Models: which one does it better?
Su, Maijia
Dabaghi, Mayssa
Broccardo, Marco
Applications
Stochastic ground motion models (GMMs) are gaining popularity and momentum among engineers to perform time-history analysis of structures and infrastructures. This paper aims to review and validate hierarchical stochastic GMMs, with a focus on identifying their ''optimal'' configuration. We introduce the word ''hierarchical'' as its formulation contains two steps:(1) selecting a modulated filtered white noise model (MFWNM) to replicate a target record and (2) constructing a joint probability density function (PDF) for the parameters of the selected MFWNM, accounting for the record-to-record variability. In the first step, we review the development of MFWNMs and explore the ''optimal'' modeling of time-varying spectral content. Specifically, we investigate different frequency filters (single- and multi-mode) and various trends (constant, linear, and non-parametric) to describe the filters' time-varying properties. In the second step, the joint PDF is decomposed into a product of marginal distributions and a correlation structure, represented by copula models. We explore two copula models: the Gaus-sian copula and the R-vine copula. The hierarchical GMMs are evaluated by comparing specific statistical metrics, calculated from 1,001 real strong motions, with those derived from their corresponding synthetic dataset. Based on the selected validation metrics, we conclude that (1) Hierarchical stochastic GMMs can generate ground motions with high statistical compatibility to the real datasets, in terms of four key intensity measures and linear- and nonlinear-response spectra; (2) A parsimonious 11-parameter MFWNM, incorporating either the Gaussian copula or the R-vine copula, offers sufficient and similar accuracy.
title Review and Validation of Stochastic Ground Motion Models: which one does it better?
topic Applications
url https://arxiv.org/abs/2411.07401