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- Title
Influence lines-based model updating of suspension bridges considering boundary conditions.
- Authors
Lin, Shi-Wei; Du, Yan-Liang; Yi, Ting-Hua; Yang, Dong-Hui
- Abstract
The boundary conditions of the main girder are complicated for suspension bridges. And they have a significant impact on the static and dynamic response of the structure. This study proposes a model updating method based on influence lines considering boundary conditions. First, rotational and translational spring elements are used to simulate the boundary conditions of the main girder. Then, rotational spring stiffness is estimated by constructing a sensitive objective function based on the influence lines. Translational spring stiffness is estimated by constructing a sensitive objective function based on the temperature-induced displacements at both ends of the girder. To improve calculation efficiency, a Gaussian process model is used instead of the finite element model (FEM). The estimation of boundary conditions is expressed as an optimization whose main goal is to iteratively estimate the boundary conditions to minimize the objective functions. After the boundary conditions are determined, the influence lines-based model updating is carried out by using the adaptive metamodel global optimization method. To validate the proposed method, a long-span suspension bridge is taken as a case study. The results show that the boundary conditions of the main girder have been successfully estimated. The accuracy of the model updating is improved after the boundary conditions are considered. The updated FEM with accurate boundary conditions can be a benchmark model for bridge damage identification or condition assessment.
- Subjects
SUSPENSION bridges; LONG-span bridges; FINITE element method; GAUSSIAN processes; GEOGRAPHIC boundaries; GLOBAL optimization
- Publication
Advances in Structural Engineering, 2023, Vol 26, Issue 2, p316
- ISSN
1369-4332
- Publication type
Article
- DOI
10.1177/13694332221126374