Model-based damage identification of railway bridges using genetic algorithms.
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Data
2020
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Resumo
The assessment of structural integrity via numerical model updating has been drawing attention
in several areas of engineering over the last years. Basically, it consists in an optimization process
based on the minimization of the residuals between measured and estimated numerical re-
sponses. In such methodologies, several factors influence the success of both localization and
quantification of structural damage, such as: the damage features used in the formulation of the
objective function, the optimization algorithm and the adopted updating parameters. Many ex-
isting studies using these methods are applied to simple structural systems, e.g., beams, frames
and trusses. However, few studies applied to large and complex structures are found in the lit-
erature. In this context, this work proposes to assess the performance of a genetic algorithm-
based approach applied to two case studies. The first case refers to a two-dimensional model of a
hypothetical railway bridge, where the efficiency and robustness of five different indicators are
assessed considering three damage scenarios. In the second case, a real railway bridge is con-
sidered. The results obtained show that the proposed approach is able to detect, locate and
quantify multiple damage with several updating parameters and few target responses.
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Modal parameters, Model updating, Features selection
Citação
ALVES, V. N. et al. Model-based damage identification of railway bridges using genetic algorithms. Engineering Failure Analysis, v. 118, 2020. Disponível em: <https://www.sciencedirect.com/science/article/pii/S1350630720306580>. Acesso em: 29 abr. 2022.