A 2-D continuous wavelet transform of mode shape data for damage detection of plate structures

Fan, Wei; Qiao, Pizhong

doi:10.1016/j.ijsolstr.2009.08.022

Cited by 149 publications

(64 citation statements)

References 27 publications

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“…The localization of the damage is primarily studied in the literature; while the quantification of the damage, as the follow-up step in damage identification, is still in a relatively immature stage, worth immediate attention and investigation; (3) Development of viable damage identification methods for 2D plates. There are only limited studies [37,53,55,78,81,98,99] available for plates, with most of them being generalized from the 1D algorithms. It should be mentioned that the methods using novel signal processing techniques, such as 2D wavelet transform as demonstrated by the authors [55], show their potential to be a powerful tool in damage identification of plates and thus demand further research.…”

Section: Resultsmentioning

confidence: 99%

“…The algorithm is further implemented in an experimental modal test to detect impact damage in an FRP composite plate using smart piezoelectric actuators and sensors, demonstrating its applicability to the experimental mode shapes. The 2D CWT-based algorithm presented in [55] is among a few limited studies in the literature to explore the application of 2D wavelets in damage detection, and as demonstrated, it can be used as a viable and effective technique for damage identification of plate-or shell-type structures.…”

Section: Mode Shape Analysis Using Modern Signalmentioning

confidence: 99%

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Vibration-based Damage Identification Methods: A Review and Comparative Study

Fan

Qiao

2010

Structural Health Monitoring

1,592

215

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A comprehensive review on modal parameter-based damage identification methods for beam-or plate-type structures is presented, and the damage identification algorithms in terms of signal processing are particularly emphasized. Based on the vibration features, the damage identification methods are classified into four major categories: natural frequency-based methods, mode shape-based methods, curvature mode shape-based methods, and methods using both mode shapes and frequencies, and their merits and drawbacks are discussed. It is observed that most mode shape-based and curvature mode shape-based methods only focus on damage localization. In order to precisely locate the damage, the mode shape-based methods have to rely on optimization algorithms or signal processing techniques; while the curvature mode shape-based methods are in general a very effective type of damage localization algorithms. As an implementation, a comparative study of five extensively-used damage detection algorithms for beam-type structures is conducted to evaluate and demonstrate the validity and effectiveness of the signal processing algorithms. This brief review aims to help the readers in identifying starting points for research in vibration-based damage identification and structural health monitoring and guides researchers and practitioners in better implementing available damage identification algorithms and signal processing methods for beam-or plate-type structures.

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Section: Resultsmentioning

confidence: 99%

Section: Mode Shape Analysis Using Modern Signalmentioning

confidence: 99%

Vibration-based Damage Identification Methods: A Review and Comparative Study

Fan

Qiao

2010

Structural Health Monitoring

1,592

215

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“…The procedure to detect the position of damage in the membrane structure is adopted from the procedure suggested by Fan [12], using the 2-D CWT derivative Gauss (Dergauss2d), which was used successfully for detecting damage on plates using mode shape data. Gaussian filtering is a widely used approach to filter out the high frequency noises.…”

Section: -D Cwt For Damage Detection In Membrane Structurementioning

confidence: 99%

“…The following procedure suggested by Fan [12] will be used to detect damage locations in the membrane structure:…”

Section: The Procedures Of Damage Detection On the Membranementioning

confidence: 99%

Damage detection in membrane structures using non-contact laser excitation and wavelet transformation

Huda

Kajiwara

Hosoya

2014

Journal of Sound and Vibration

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Abstract:In this paper, a vibration testing and health monitoring system based on an impulse response excited by laser is proposed to detect damage in membrane structures. A high power Nd: YAG pulse laser is used to supply an ideal impulse to a membrane structure by generating shock waves via laser-induced breakdown in air. A health monitoring apparatus is developed with this vibration testing system and a damage detecting algorithm which only requires the vibration mode shape of the damaged membrane. Artificial damage is induced in membrane structure by cutting and tearing the membrane. The vibration mode shapes of the membrane structure extracted from vibration testing by using the laser-induced breakdown and laser Doppler vibrometer are then analyzed by 2-D continuous wavelet transformation. The location of damage is determined by the dominant peak of the wavelet coefficient which can be seen clearly by applying a boundary treatment and the concept of an iso-surface to the 2-D wavelet coefficient. The applicability of the present approach is verified by finite element analysis and experimental results, demonstrating the ability of the method to detect and identify the positions of damage induced on the membrane structure.

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“…The application of 1-D and 2-D wavelet transform methods to displacement mode shape for damage detection of beam and plate structures have also been extensively investigated. 8,9 Ratcliffe, et al 10,11 proposed the gapped smoothing method (GSM) and the global fitting method (GFM) for damage detection. The GSM and GFM do not require data from the undamaged structure.…”

Section: Introductionmentioning

confidence: 99%

Vibration Analysis of Cracked Beams Using Adomian Decomposition Method and Non-Baseline Damage Detection via High-Pass Filters

Mao¹

2016

IJAV

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The Adomian decomposition method (ADM) and high-pass filters are employed in this study to investigate the free vibrations and damage detection of cracked Euler-Bernoulli beams. Based on the ADM and employing some simple mathematical operations, the closed-form series solution of the mode shapes can be determined for beams consisting of an arbitrary number of cracks under general boundary conditions in a recursive way. Then, a highpass filter is used to extract the irregularity profile from the corresponding mode shape. The location and size of the cracks in the beam can be determined by the peak value of the irregularity profile. The numerical results for different locations and depths of cracks on the damaged beam under different boundary conditions are presented. The results show that the proposed method is effective and accurate. The experimental work for aluminium cantilever beams with one and two cracks was performed to verify the proposed method. The successful detection of cracks in the beam demonstrates that the proposed method has great potential in crack detection of beam-type structures, as it is simple and does not require the mode shapes of an uncracked beam as a baseline.

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A 2-D continuous wavelet transform of mode shape data for damage detection of plate structures

Cited by 149 publications

References 27 publications

Vibration-based Damage Identification Methods: A Review and Comparative Study

Vibration-based Damage Identification Methods: A Review and Comparative Study

Damage detection in membrane structures using non-contact laser excitation and wavelet transformation

Vibration Analysis of Cracked Beams Using Adomian Decomposition Method and Non-Baseline Damage Detection via High-Pass Filters

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