Multi-resolution analysis for region of interest extraction in thermographic nondestructive evaluation

B. Ortiz-Jaramillo; H. A. Fandiño Toro; H. D. Benitez-Restrepo; S. A. Orjuela-Vargas; G. Castellanos-Domínguez; W. Philips

doi:10.1117/12.912079

Multi-resolution analysis for region of interest extraction in thermographic nondestructive evaluation

B. Ortiz-Jaramillo
, H. A. Fandiño Toro
, H. D. Benitez-Restrepo
, S. A. Orjuela-Vargas
, G. Castellanos-Domínguez
, W. Philips

Universidad Nacional de Colombia
Ghent University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

3 Scopus citations

Abstract

Infrared Non-Destructive Testing (INDT) is known as an effective and rapid method for nondestructive inspection. It can detect a broad range of near-surface structuring flaws in metallic and composite components. Those flaws are modeled as a smooth contour centered at peaks of stored thermal energy, termed Regions of Interest (ROI). Dedicated methodologies must detect the presence of those ROIs. In this paper, we present a methodology for ROI extraction in INDT tasks. The methodology deals with the difficulties due to the non-uniform heating. The non-uniform heating affects low spatial/frequencies and hinders the detection of relevant points in the image. In this paper, a methodology for ROI extraction in INDT using multi-resolution analysis is proposed, which is robust to ROI low contrast and non-uniform heating. The former methodology includes local correlation, Gaussian scale analysis and local edge detection. In this methodology local correlation between image and Gaussian window provides interest points related to ROIs. We use a Gaussian window because thermal behavior is well modeled by Gaussian smooth contours. Also, the Gaussian scale is used to analyze details in the image using multi-resolution analysis avoiding low contrast, non-uniform heating and selection of the Gaussian window size. Finally, local edge detection is used to provide a good estimation of the boundaries in the ROI. Thus, we provide a methodology for ROI extraction based on multi-resolution analysis that is better or equal compared with the other dedicate algorithms proposed in the state of art.

Original language	English
Title of host publication	Proceedings of SPIE-IS and T Electronic Imaging - Image Processing
Subtitle of host publication	Algorithms and Systems X; and Parallel Processing for Imaging Applications II
DOIs	https://doi.org/10.1117/12.912079
State	Published - 2012
Event	Image Processing: Algorithms and Systems X; and Parallel Processing for Imaging Applications II - Burlingame, CA, United States Duration: 23 Jan 2012 → 25 Jan 2012

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	8295
ISSN (Print)	0277-786X

Conference

Conference	Image Processing: Algorithms and Systems X; and Parallel Processing for Imaging Applications II
Country/Territory	United States
City	Burlingame, CA
Period	23/01/12 → 25/01/12

Keywords

Gaussian scale decomposition
infrared nondestructive testing
pulse infrared thermography
region of interest

Access to Document

10.1117/12.912079

Cite this

Ortiz-Jaramillo, B., Fandiño Toro, H. A., Benitez-Restrepo, H. D., Orjuela-Vargas, S. A., Castellanos-Domínguez, G., & Philips, W. (2012). Multi-resolution analysis for region of interest extraction in thermographic nondestructive evaluation. In Proceedings of SPIE-IS and T Electronic Imaging - Image Processing: Algorithms and Systems X; and Parallel Processing for Imaging Applications II Article 82951J (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 8295). https://doi.org/10.1117/12.912079

Ortiz-Jaramillo, B. ; Fandiño Toro, H. A. ; Benitez-Restrepo, H. D. et al. / Multi-resolution analysis for region of interest extraction in thermographic nondestructive evaluation. Proceedings of SPIE-IS and T Electronic Imaging - Image Processing: Algorithms and Systems X; and Parallel Processing for Imaging Applications II. 2012. (Proceedings of SPIE - The International Society for Optical Engineering).

@inproceedings{8173b39fdeec431f99cc4eebcfd95111,

title = "Multi-resolution analysis for region of interest extraction in thermographic nondestructive evaluation",

abstract = "Infrared Non-Destructive Testing (INDT) is known as an effective and rapid method for nondestructive inspection. It can detect a broad range of near-surface structuring flaws in metallic and composite components. Those flaws are modeled as a smooth contour centered at peaks of stored thermal energy, termed Regions of Interest (ROI). Dedicated methodologies must detect the presence of those ROIs. In this paper, we present a methodology for ROI extraction in INDT tasks. The methodology deals with the difficulties due to the non-uniform heating. The non-uniform heating affects low spatial/frequencies and hinders the detection of relevant points in the image. In this paper, a methodology for ROI extraction in INDT using multi-resolution analysis is proposed, which is robust to ROI low contrast and non-uniform heating. The former methodology includes local correlation, Gaussian scale analysis and local edge detection. In this methodology local correlation between image and Gaussian window provides interest points related to ROIs. We use a Gaussian window because thermal behavior is well modeled by Gaussian smooth contours. Also, the Gaussian scale is used to analyze details in the image using multi-resolution analysis avoiding low contrast, non-uniform heating and selection of the Gaussian window size. Finally, local edge detection is used to provide a good estimation of the boundaries in the ROI. Thus, we provide a methodology for ROI extraction based on multi-resolution analysis that is better or equal compared with the other dedicate algorithms proposed in the state of art.",

keywords = "Gaussian scale decomposition, infrared nondestructive testing, pulse infrared thermography, region of interest",

author = "B. Ortiz-Jaramillo and \{Fandi{\~n}o Toro\}, \{H. A.\} and Benitez-Restrepo, \{H. D.\} and Orjuela-Vargas, \{S. A.\} and G. Castellanos-Dom{\'i}nguez and W. Philips",

year = "2012",

doi = "10.1117/12.912079",

language = "English",

isbn = "9780819489425",

series = "Proceedings of SPIE - The International Society for Optical Engineering",

booktitle = "Proceedings of SPIE-IS and T Electronic Imaging - Image Processing",

note = "Image Processing: Algorithms and Systems X; and Parallel Processing for Imaging Applications II ; Conference date: 23-01-2012 Through 25-01-2012",

}

Ortiz-Jaramillo, B, Fandiño Toro, HA, Benitez-Restrepo, HD, Orjuela-Vargas, SA, Castellanos-Domínguez, G & Philips, W 2012, Multi-resolution analysis for region of interest extraction in thermographic nondestructive evaluation. in Proceedings of SPIE-IS and T Electronic Imaging - Image Processing: Algorithms and Systems X; and Parallel Processing for Imaging Applications II., 82951J, Proceedings of SPIE - The International Society for Optical Engineering, vol. 8295, Image Processing: Algorithms and Systems X; and Parallel Processing for Imaging Applications II, Burlingame, CA, United States, 23/01/12. https://doi.org/10.1117/12.912079

Multi-resolution analysis for region of interest extraction in thermographic nondestructive evaluation. / Ortiz-Jaramillo, B.; Fandiño Toro, H. A.; Benitez-Restrepo, H. D. et al.
Proceedings of SPIE-IS and T Electronic Imaging - Image Processing: Algorithms and Systems X; and Parallel Processing for Imaging Applications II. 2012. 82951J (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 8295).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Multi-resolution analysis for region of interest extraction in thermographic nondestructive evaluation

AU - Ortiz-Jaramillo, B.

AU - Fandiño Toro, H. A.

AU - Benitez-Restrepo, H. D.

AU - Orjuela-Vargas, S. A.

AU - Castellanos-Domínguez, G.

AU - Philips, W.

PY - 2012

Y1 - 2012

N2 - Infrared Non-Destructive Testing (INDT) is known as an effective and rapid method for nondestructive inspection. It can detect a broad range of near-surface structuring flaws in metallic and composite components. Those flaws are modeled as a smooth contour centered at peaks of stored thermal energy, termed Regions of Interest (ROI). Dedicated methodologies must detect the presence of those ROIs. In this paper, we present a methodology for ROI extraction in INDT tasks. The methodology deals with the difficulties due to the non-uniform heating. The non-uniform heating affects low spatial/frequencies and hinders the detection of relevant points in the image. In this paper, a methodology for ROI extraction in INDT using multi-resolution analysis is proposed, which is robust to ROI low contrast and non-uniform heating. The former methodology includes local correlation, Gaussian scale analysis and local edge detection. In this methodology local correlation between image and Gaussian window provides interest points related to ROIs. We use a Gaussian window because thermal behavior is well modeled by Gaussian smooth contours. Also, the Gaussian scale is used to analyze details in the image using multi-resolution analysis avoiding low contrast, non-uniform heating and selection of the Gaussian window size. Finally, local edge detection is used to provide a good estimation of the boundaries in the ROI. Thus, we provide a methodology for ROI extraction based on multi-resolution analysis that is better or equal compared with the other dedicate algorithms proposed in the state of art.

AB - Infrared Non-Destructive Testing (INDT) is known as an effective and rapid method for nondestructive inspection. It can detect a broad range of near-surface structuring flaws in metallic and composite components. Those flaws are modeled as a smooth contour centered at peaks of stored thermal energy, termed Regions of Interest (ROI). Dedicated methodologies must detect the presence of those ROIs. In this paper, we present a methodology for ROI extraction in INDT tasks. The methodology deals with the difficulties due to the non-uniform heating. The non-uniform heating affects low spatial/frequencies and hinders the detection of relevant points in the image. In this paper, a methodology for ROI extraction in INDT using multi-resolution analysis is proposed, which is robust to ROI low contrast and non-uniform heating. The former methodology includes local correlation, Gaussian scale analysis and local edge detection. In this methodology local correlation between image and Gaussian window provides interest points related to ROIs. We use a Gaussian window because thermal behavior is well modeled by Gaussian smooth contours. Also, the Gaussian scale is used to analyze details in the image using multi-resolution analysis avoiding low contrast, non-uniform heating and selection of the Gaussian window size. Finally, local edge detection is used to provide a good estimation of the boundaries in the ROI. Thus, we provide a methodology for ROI extraction based on multi-resolution analysis that is better or equal compared with the other dedicate algorithms proposed in the state of art.

KW - Gaussian scale decomposition

KW - infrared nondestructive testing

KW - pulse infrared thermography

KW - region of interest

UR - https://www.scopus.com/pages/publications/84857573851

U2 - 10.1117/12.912079

DO - 10.1117/12.912079

M3 - Conference contribution

AN - SCOPUS:84857573851

SN - 9780819489425

T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - Proceedings of SPIE-IS and T Electronic Imaging - Image Processing

T2 - Image Processing: Algorithms and Systems X; and Parallel Processing for Imaging Applications II

Y2 - 23 January 2012 through 25 January 2012

ER -

Ortiz-Jaramillo B, Fandiño Toro HA, Benitez-Restrepo HD, Orjuela-Vargas SA, Castellanos-Domínguez G, Philips W. Multi-resolution analysis for region of interest extraction in thermographic nondestructive evaluation. In Proceedings of SPIE-IS and T Electronic Imaging - Image Processing: Algorithms and Systems X; and Parallel Processing for Imaging Applications II. 2012. 82951J. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.912079

Multi-resolution analysis for region of interest extraction in thermographic nondestructive evaluation

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