Robust Principal Component Thermography for Defect Detection in Composites.

Ebrahimi, Samira; Fleuret, Julien; Klein, Matthieu; Théroux, Louis-Daniel; Georges, Marc; Ibarra-Castanedo, Clemente; Maldague, Xavier

Ebrahimi, Samira; Fleuret, Julien; Klein, Matthieu; Théroux, Louis-Daniel; Georges, Marc; Ibarra-Castanedo, Clemente; Maldague, Xavier.

Afiliación

Ebrahimi S; Computer Vision and Systems Laboratory (CVSL), Department of Electrical and Computer Engineering, Laval University, Quebec City, QC G1V 0A6, Canada.
Fleuret J; Computer Vision and Systems Laboratory (CVSL), Department of Electrical and Computer Engineering, Laval University, Quebec City, QC G1V 0A6, Canada.
Klein M; Infrared Thermography Testing Systems, Visiooimage Inc., Quebec City, QC G1W 1A8, Canada.
Théroux LD; Centre Technologique et Aérospatial (CTA), Saint-Hubert, QC J3Y 8Y9, Canada.
Georges M; Centre Spatial de Liège, STAR Research Unit, Liège Université, 4031 Angleur, Belgium.
Ibarra-Castanedo C; Computer Vision and Systems Laboratory (CVSL), Department of Electrical and Computer Engineering, Laval University, Quebec City, QC G1V 0A6, Canada.
Maldague X; Infrared Thermography Testing Systems, Visiooimage Inc., Quebec City, QC G1W 1A8, Canada.

Sensors (Basel) ; 21(8)2021 Apr 10.

Article en En | MEDLINE | ID: mdl-33920261

RESUMEN

Pulsed Thermography (PT) data are usually affected by noise and as such most of the research effort in the last few years has been directed towards the development of advanced signal processing methods to improve defect detection. Among the numerous techniques that have been proposed, principal component thermography (PCT)-based on principal component analysis (PCA)-is one of the most effective in terms of defect contrast enhancement and data compression. However, it is well-known that PCA can be significantly affected in the presence of corrupted data (e.g., noise and outliers). Robust PCA (RPCA) has been recently proposed as an alternative statistical method that handles noisy data more properly by decomposing the input data into a low-rank matrix and a sparse matrix. We propose to process PT data by RPCA instead of PCA in order to improve defect detectability. The performance of the resulting approach, Robust Principal Component Thermography (RPCT)-based on RPCA, was evaluated with respect to PCT-based on PCA, using a CFRP sample containing artificially produced defects. We compared results quantitatively based on two metrics, Contrast-to-Noise Ratio (CNR), for defect detection capabilities, and the Jaccard similarity coefficient, for defect segmentation potential. CNR results were on average 40% higher for RPCT than for PCT, and the Jaccard index was slightly higher for RPCT (0.7395) than for PCT (0.7010). In terms of computational time, however, PCT was 11.5 times faster than RPCT. Further investigations are needed to assess RPCT performance on a wider range of materials and to optimize computational time.

Palabras clave

CFRP; OIALM; Orthogonal IALM; PCP; RPCA; Robust PCA; noise reduction; pulsed thermography

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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Tipo de estudio: Diagnostic_studies Idioma: En Revista: Sensors (Basel) Año: 2021 Tipo del documento: Article País de afiliación: Canadá Pais de publicación: Suiza

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