A methodology for estimating guided wave scattering patterns from sparse transducer array measurements

Chen, Xin; Michaels, Jennifer E.; Michaels, Thomas E.

doi:10.1109/tuffc.2014.006747

Cited by 33 publications

(17 citation statements)

References 38 publications

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“…In structural health monitoring (SHM) or non-destructive evaluation (NDE) application, most situations seem to lie in between. The Lamb wave interactions with finitesized holes 43 and cracks 44 and the scattering patterns of their combinations have also been studied, 45 whereas the reflectivity coefficients are both angle and frequency dependent. However, the severity of the damage, in reality, might be caused by various factors, such as damage size, Young's modulus change, density change, thickness change, or a combination effect for metals.…”

Section: Discussionmentioning

confidence: 99%

Lamb wave-based subwavelength damage imaging using the DORT-MUSIC technique in metallic plates

Fang

2016

Structural Health Monitoring

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A Lamb wave-based, subwavelength imaging algorithm is developed for damage imaging in a metallic plate based on a decomposition of the time-reversal operator method together with a multiple signal classification imaging condition in the space-frequency domain. In this study, a hybrid non-contact inspection system was proposed to image damage in an aluminum plate using a piezoelectric linear array for actuation and a laser Doppler vibrometer line-scan perpendicular to the piezoelectric array for sensing. The physics of incident waves, reflection, and reflected waves that underlie the transfer matrix in the decomposition of the time-reversal operator method is mathematically formulated in the context of guided waves based on the first-order Born approximation. Singular value decomposition is then employed to decompose the experimentally measured transfer matrix into three matrices, detailing the incident wave propagation from the linear actuator array, reflection from the damage, and followed by reflected waves toward the linear sensing array for each small damage. The singular value decomposition and multiple signal classification imaging condition enable providing insight on both the damage ''reflectivity'' and detecting damage smaller than a wavelength (subwavelength). With the flexibility of this inspection system, a considerably large area can be imaged using lower frequency Lamb waves with rapid line-scans. The experimental results showed that the hardware system with a signal processing tools such as the decomposition of the time-reversal operator with multiple signal classification (time-reversal with multiple signal classification) imaging technique can provide robust, highly accurate imaging results as well as providing damage reflectivity estimation with unknown material properties.

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Section: Discussionmentioning

confidence: 99%

Lamb wave-based subwavelength damage imaging using the DORT-MUSIC technique in metallic plates

Fang

2016

Structural Health Monitoring

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“…Transducer choice is important as modes behave differently when interacting with different materials [13]. Laser vibrometery is desirable for this reason [5] as it is non contact. When two dimensional Fourier analysis is performed, an image that shows the relationship between frequency and wavenumber is produced [14].…”

Section: B Defect Localisation In a Titanium Platementioning

confidence: 99%

“…More recently, authors have developed techniques for coupling lamb waves into complex corrugated materials [4]. Guided waves are still an area of intense research, with authors continuing to characterise guided wave [5] behaviour at increasing frequencies [6].…”

Section: Introductionmentioning

confidence: 99%

Specimen-agnostic guided wave inspection using recursive feedback

Adams

Harput

Cowell

et al. 2016

2016 IEEE International Ultrasonics Symposium (IUS)

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ReuseUnless indicated otherwise, fulltext items are protected by copyright with all rights reserved. The copyright exception in section 29 of the Copyright, Designs and Patents Act 1988 allows the making of a single copy solely for the purpose of non-commercial research or private study within the limits of fair dealing. The publisher or other rights-holder may allow further reproduction and re-use of this version -refer to the White Rose Research Online record for this item. Where records identify the publisher as the copyright holder, users can verify any specific terms of use on the publisher's website. TakedownIf you consider content in White Rose Research Online to be in breach of UK law, please notify us by emailing eprints@whiterose.ac.uk including the URL of the record and the reason for the withdrawal request. Abstract-Lamb waves, a configuration of guided waves are often applied to the inspection of plate like structures. Their complex, multi-modal nature makes them well suited to the inspection of different defects. Control over their propagation direction allows the engineer to increase inspection distance and prospectively locate the defect. Schemes already exist, but they require knowledge of material and its dispersion curves. If the material composition is not known, or external factors are effecting its speed of sound then these schemes may not be appropriate. The recursive feedback algorithm can be used to enhance guided waves in a single direction without a-priori knowledge. In recursive feedback, a guided wave is generated using the first element of an array transducer. Over several subsequent iterations, this guided wave is reinforced by retransmitting recorded out of plane displacements. In this work, recursive feedback has been applied to two inspection problems; a contaminated kissing bond and a plate with a defect. With the kissing bond, it is shown that the the contamination can be identified as the A0 mode of generated waves are absorbed. In the defective plate, the defect direction is identified by a 10 dB increase in reflected energy when the guided waves are enhanced in one direction.

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“…The damage is assumed to be equivalent to an omnidirectional point-like reflector which amplitude is assumed to grow as the size of the damage increases. A more complex representation of the damage would implementing the directivity pattern of the damage [51,52,53].…”

Section: Introduction To the Model-based Assessmentmentioning

confidence: 99%

A model-based approach for statistical assessment of detection and localization performance of guided wave–based imaging techniques

Moriot

Quaegebeur

Duff

et al. 2017

Structural Health Monitoring

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This paper aims at providing a framework for assessing the detection and localization performance of guided wave-based structural health monitoring (SHM) imaging systems. The assessment exploits a damage identification metric (DIM) providing a diagnostic of the structure from an image of the scatterers generated by the system, allowing detection, localization, and size estimation of the damage. Statistical probability of detection (POD) and probability of localization (POL) curves are produced based on values of the DIM for several damage sizes and positions. Instead of relying on arduous measurements on a significant number of structures instrumented in the same way, a model-based approach is considered in this paper for estimating POD and POL curves numerically. This approach is first illustrated on a simplistic model, which allows characterizing the robustness of the SHM system for various levels of noise in test signals. An experimental test case using a more realistic case with an artificial damage is then considered for validating the approach. A good agreement between experimental and numerical values of the DIM and derived POD and POL curves is observed.

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A methodology for estimating guided wave scattering patterns from sparse transducer array measurements

Cited by 33 publications

References 38 publications

Lamb wave-based subwavelength damage imaging using the DORT-MUSIC technique in metallic plates

Lamb wave-based subwavelength damage imaging using the DORT-MUSIC technique in metallic plates

Specimen-agnostic guided wave inspection using recursive feedback

A model-based approach for statistical assessment of detection and localization performance of guided wave–based imaging techniques

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