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Application of meta-model based parameter identification of a seismically retrofitted reinforced concrete building

Authors
Yu, Eunjong
Issue Date
Apr-2018
Publisher
TECHNO-PRESS
Keywords
model updating; response surface method; multi-objective optimization; seismic retrofit; TOPSIS
Citation
COMPUTERS AND CONCRETE, v.21, no.4, pp.441 - 449
Indexed
SCIE
SCOPUS
KCI
Journal Title
COMPUTERS AND CONCRETE
Volume
21
Number
4
Start Page
441
End Page
449
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/150268
DOI
10.12989/cac.2018.21.4.441
ISSN
1598-8198
Abstract
FE models for complex or large-scaled structures that need detailed modeling of structural components are usually constructed using commercial analysis softwares. Updating of such FE model by conventional sensitivity-based methods is difficult since repeated computation for perturbed parameters and manual calculations are needed to obtain sensitivity matrix in each iteration. In this study, an FE model updating procedure avoiding such difficulties by using response surface (RS) method and a Pareto-based multiobjective optimization (MOO) was formulated and applied to FE models constructed with a commercial analysis package. The test building is a low-rise reinforced concrete building that has been seismically retrofitted. Dynamic properties of the building were extracted from vibration tests performed before and after the seismic retrofits, respectively. The elastic modulus of concrete and masonry, and spring constants for the expansion joint were updated. Two RS functions representing the errors in the natural frequencies and mode shape, respectively, were obtained and used as the objective functions for MOO. Among the Pareto solutions, the best compromise solution was determined using the TOPSIS (Technique for Order of Preference by Similarity to Ideal Solution) procedure. A similar task was performed for retrofitted building by taking the updating parameters as the stiffness of modified or added members. Obtained parameters of the existing building were reasonably comparable with the current code provisions. However, the stiffiess of added concrete shear walls and steel section jacketed members were considerably lower than expectation. Such low values are seemingly because the bond between new and existing concrete was not as good as the monolithically casted members, even though they were connected by the anchoring bars.
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