Optimal Performance-Based Configurations of Stiffness and Strength Centers in Multi-Story Wall-Frame Asymmetric Buildings Including Soil–Structure Interaction Effects. Mohammadzadeh Osalu, S., Shakib, H., & McClure, G. Journal of Earthquake Engineering, 26(11):5978 - 6014, 2022.
Optimal Performance-Based Configurations of Stiffness and Strength Centers in Multi-Story Wall-Frame Asymmetric Buildings Including Soil–Structure Interaction Effects [link]Paper  abstract   bibtex   
In this paper, the probabilistic performance-based approach is adopted to evaluate the seismic performance of multi-story reinforced concrete wall-frame asymmetric buildings considering soil–structure interaction (SSI) and identify appropriate stiffness and strength centers configurations. A group of fixed- and flexible-base models with different stiffness and strength eccentricities were considered for parametric studies, and their seismic performance was compared in three different limit states. The optimum configuration of centers was found to be a function of base condition and performance objective. The proposed configurations can be adopted in the performance-based design of asymmetric buildings. Furthermore, the results indicate a detrimental effect of SSI in the Life Safety and Collapse Prevention limit states.
© 2021 Taylor & Francis Group, LLC.
@article{20212110407774 ,
language = {English},
copyright = {Compilation and indexing terms, Copyright 2025 Elsevier Inc.},
copyright = {Compendex},
title = {Optimal Performance-Based Configurations of Stiffness and Strength Centers in Multi-Story Wall-Frame Asymmetric Buildings Including Soil–Structure Interaction Effects},
journal = {Journal of Earthquake Engineering},
author = {Mohammadzadeh Osalu, Sahar and Shakib, Hamzeh and McClure, Ghyslaine},
volume = {26},
number = {11},
year = {2022},
pages = {5978 - 6014},
issn = {13632469},
abstract = {<div data-language="eng" data-ev-field="abstract">In this paper, the probabilistic performance-based approach is adopted to evaluate the seismic performance of multi-story reinforced concrete wall-frame asymmetric buildings considering soil–structure interaction (SSI) and identify appropriate stiffness and strength centers configurations. A group of fixed- and flexible-base models with different stiffness and strength eccentricities were considered for parametric studies, and their seismic performance was compared in three different limit states. The optimum configuration of centers was found to be a function of base condition and performance objective. The proposed configurations can be adopted in the performance-based design of asymmetric buildings. Furthermore, the results indicate a detrimental effect of SSI in the Life Safety and Collapse Prevention limit states.<br/></div> © 2021 Taylor & Francis Group, LLC.},
key = {Stiffness},
%keywords = {Seismology;Seismic design;Walls (structural partitions);Reinforced concrete;Seismic waves;Soils;},
%note = {Asymmetric buildings;Optimal performance;Optimum configurations;Performance based approach;Performance based design;Performance objective;Reinforced concrete wall;Seismic Performance;},
URL = {http://dx.doi.org/10.1080/13632469.2021.1911881},
}
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