Sensitivity of Eigen Value to Damage and Its Identification

The reduction in natural frequencies, however small, of a civil engineering structure, is the first and the easiest method of estimating its impending damage. As a first level screening for health-monitoring, information on the frequency reduction of a few fundamental modes can be used to estimate t...

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Veröffentlicht in:	Structural durability & health monitoring 2008-01, Vol.4 (3), p.117-144
Hauptverfasser:	Raghuprasad, B K, Lakshmanan, N, Gopalakrishnan, N, Muthumani, K
Format:	Artikel
Sprache:	eng
Schlagworte:	Building frames Damage detection Eigenvalues End bearing piles Error analysis Girder bridges Neural networks Perturbation methods Reduction Resonant frequencies Sensitivity
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creator	Raghuprasad, B K Lakshmanan, N Gopalakrishnan, N Muthumani, K
description	The reduction in natural frequencies, however small, of a civil engineering structure, is the first and the easiest method of estimating its impending damage. As a first level screening for health-monitoring, information on the frequency reduction of a few fundamental modes can be used to estimate the positions and the magnitude of damage in a smeared fashion. The paper presents the Eigen value sensitivity equations, derived from first-order perturbation technique, for typical infra-structural systems like a simply supported bridge girder, modelled as a beam, an end-bearing pile, modelled as an axial rod and a simply supported plate as a continuum dynamic system. A discrete structure, like a building frame is solved for damage using Eigen-sensitivity derived by a computational model. Lastly, neural network based damage identification is also demonstrated for a simply supported bridge beam, where the known-pairs of damage-frequency vector is used to train a neural network. The performance of these methods under the influence of measurement error is outlined. It is hoped that the developed method could be integrated in a typical infra-structural management program, such that magnitudes of damage and their positions can be obtained using acquired natural frequencies, synthesised from the excited/ambient vibration signatures.
doi_str_mv	10.3970/sdhm.2008.004.117
format	Article
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source	Tech Science Press; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects	Building frames Damage detection Eigenvalues End bearing piles Error analysis Girder bridges Neural networks Perturbation methods Reduction Resonant frequencies Sensitivity
title	Sensitivity of Eigen Value to Damage and Its Identification
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