Please use this identifier to cite or link to this item: http://hdl.handle.net/11452/22820
Title: A new damage detection approach for beam-type structures based on the combination of continuous and discrete wavelet transforms
Authors: Uludağ Üniversitesi/Mühendislik Fakültesi/Makine Mühendisliği Bölümü.
0000-0003-3070-6365
Gökdağ, Hakan
Kopmaz, Osman
F-3233-2016
23012197200
6603311475
Keywords: Crack identification
Vibrations
Rods
Acoustics
Engineering
Mechanics
Damage detection
Mathematical transformations
Wavelet decomposition
Approximation function
Baseline data
Beam-type structures
Continuous wavelet transforms
Damage features
Damage index
Damaged beam
Damaged mode
Decomposition level
Detection approach
Energy ratio
Experimental modes
Local damage
New damage
Two beams
Vanishing moment
Discrete wavelet transforms
Issue Date: 24-Jul-2009
Publisher: Academic Press - Elsevier Science
Citation: Gökdağ, H. ve Kopmaz, O. (2009). "A new damage detection approach for beam-type structures based on the combination of continuous and discrete wavelet transforms". Journal of Sound and Vibration, 324(3-5), 1158-1180.
Abstract: In this work, a new wavelet-based damage detection approach has been proposed. The method is based on the assumption that a damaged mode shape of a beam is approximately composed of an undamaged mode and other contributors such as measurement- and local damage-induced variations. Then, a proper approximation function (AF) to be used as undamaged mode can be extracted from the damaged one by the discrete wavelet transform (DWT), provided a suitable wavelet and a decomposition level (DL) are determined. By this way, a reliable damage index can be defined taking the difference of the continuous wavelet transform (CWT) coefficients of the damaged mode and those of the AF. It is demonstrated that the AF which is well-correlated with the numerical undamaged mode of beam can be obtained at the DL after which the approximation energy ratio (Ea) drops significantly, if a suitable wavelet having sufficient number of vanishing moments (NVM) is selected. In order to test the method, the first two numerically obtained modes of a damaged beam as well as the first two experimental modes of another damaged beam are employed. Although the physical properties and damage features of these two beams are quite different, it is concluded that the AFs which are derived from these modes by the proposed method can be conveniently used as baseline data for damage detection purpose.
URI: https://doi.org/10.1016/j.jsv.2009.02.030
https://www.sciencedirect.com/science/article/pii/S0022460X09002077
http://hdl.handle.net/11452/22820
ISSN: 0022-460X
Appears in Collections:Scopus
Web of Science

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