2024 : 11 : 23
Seyed Mehdi Mousavi

Seyed Mehdi Mousavi

Academic rank:
ORCID:
Education: PhD.
ScopusId: 36806793700
HIndex:
Faculty:
Address: Arak University
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Research

Title
Reliable estimation of the mean annual frequency of collapse by considering ground motion spectral shape effects
Type
JournalPaper
Keywords
Uniform hazard spectrum η-Based conditional mean spectrum ε Indicator η Indicator Ground motion record selection Seismic hazard
Year
2015
Journal Bulletin of Earthquake Engineering
DOI
Researchers Alireza Azarbakht bankadeh ، Mohammad Reza Shahri ، Seyed Mehdi Mousavi

Abstract

Ground motion record (GMR) selection is an important issue in the nonlinear dynamic analysis procedure. Most of the current design codes recommend to use GMRs in which their mean spectrum be matched to a design spectrum e.g. uniform hazard spectrum. However recent research results have shown that the code methodology is neither robust nor realistic. On the other hand, GMR selection, based on spectral shape, is recently proposed in order to deal with this problem. εand η are two powerful spectral shape indicators which are used for GMR selection purposes. A comparison between ε and η was made in order to access their capability to predict the linear spectral shape and the structural nonlinear response. The η-based conditional mean spectrum (E-CMS), which has been recently emerged as a new design spectrum, was also investigated in this study. The E-CMS formulation format is fully compatible with the existing CMS definition which makes E-CMS quite easy to be implemented. The resulted E-CMS was used as a target spectrum for the record selection. Analysis of a set of multi degree of freedom systems shows that the mean annual frequency of collapse is achievable, with more reliability, based on the new emerged ηindicator. Therefore, the bias is decreased by employing the η concept into the record selection procedure. The bias reduction is more significant in higher hazard levels and in the case of structures with low natural periods or with significant higher mode effects.