2017
DOI: 10.1108/ec-09-2015-0284
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Multi-scale model updating of a timber footbridge using experimental vibration data

Abstract: Purpose The purpose of this paper is to capture the actual structural behavior of the longest timber footbridge in Spain by means of a multi-scale model updating approach in conjunction with ambient vibration tests. Design/methodology/approach In a first stage, a numerical pre-test analysis of the full bridge is performed, using standard beam-type finite elements with isotropic material properties. This approach offers a first structural model in which optimal sensor placement (OSP) methodologies are applied… Show more

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Cited by 10 publications
(5 citation statements)
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References 51 publications
(71 reference statements)
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“…In this sense, the work by Castro-Triguero et al. ( 2017 ) is somewhat different since it aims at calibrating the micromechanical parameters of a multi-scale model. In detail, Castro-Triguero et al.…”
Section: Computational Intelligence In Shmmentioning
confidence: 99%
See 2 more Smart Citations
“…In this sense, the work by Castro-Triguero et al. ( 2017 ) is somewhat different since it aims at calibrating the micromechanical parameters of a multi-scale model. In detail, Castro-Triguero et al.…”
Section: Computational Intelligence In Shmmentioning
confidence: 99%
“…In detail, Castro-Triguero et al. ( 2017 ) elaborate a multi-scale model for a timber footbridge and employ a GA to update the numerical values of degree of cellulose crystallinity, volume fraction of cellulose, volume fraction of hemicellulose, length of cellulose crystallites, radial dimension of wood cell, tangential dimension of wood cell, cell wall thickness, cell angle and microfibril angle. Throughout an iterative GA-based procedure, a homogenization technique is performed to obtain the macroscopic data for the global FE model of the bridge starting from these micromechanical parameters.…”
Section: Computational Intelligence In Shmmentioning
confidence: 99%
See 1 more Smart Citation
“…The black triangle corresponds to the location of the reference sensor (located at L/3 of the total length of the bridge measured from the north access). To minimize the influence of the number of sensors used in the AVTs, the mode shapes identified in AVTs 1 and 2 are selected to perform an OSP analysis using the Effective Independence (EI) method [23,24]. The blue rectangles correspond to OSP positions.…”
Section: Ambient Vibration Testingmentioning
confidence: 99%
“…However, the relatively low stiffness of timber bridges in combination with their low self-weight may result in uncomfortable vibrations for crossing pedestrians, and therefore, accurate dynamic analyses are often required in the design process. For this reason, the experimental and dynamic performances of timber bridges have been the purpose of several research works in the last decade [2][3][4][5], including structural health monitoring analyses [6], evaluation of natural frequencies variations with the time and use [7], etc.…”
Section: Introductionmentioning
confidence: 99%