Multi-step radiographic image enhancement conforming to weld defect segmentation

• Published in: IET image processing Vol. 9; no. 11; pp. 943 - 950
• Main Authors: Dang, Changying, Gao, Jianmin, Wang, Zhao, Chen, Fumin, Xiao, Yulin
• Format: Journal Article
• Language: English
• Published: The Institution of Engineering and Technology 01.11.2015
• Subjects: adaptive equalisers; Algorithms; anisotropic diffusion filtering; automatic optical inspection; automatic weld defect segmentation; contrast limited adaptive histogram equalisation image; defect edge preservation; Defects; edge detection; edge intensity; entropy; flaw detection; Fuzzy; fuzzy enhancement algorithm; fuzzy set theory; global contrast enhancement algorithm; Histograms; Image contrast; Image enhancement; image filtering; image segmentation; information entropy; linear weighting; local contrast enhancement algorithm; MSRE; multistep radiographic image enhancement; radiographic nondestructive testing; radiography; relative segmentation accuracy; Segmentation; smoothing methods; Special Issue: Machine Learning in Image Processing; weighted image smoothing; Weld defects; welding; contrast limited adaptive histogram equalisation image; edge intensity; smoothing methods; fuzzy set theory; image filtering; linear weighting; weighted image smoothing; local contrast enhancement algorithm; relative segmentation accuracy; image enhancement; entropy; image segmentation; edge detection; fuzzy enhancement algorithm; global contrast enhancement algorithm; information entropy; welding; multistep radiographic image enhancement; radiography; automatic weld defect segmentation; automatic optical inspection; anisotropic diffusion filtering; flaw detection; defect edge preservation; radiographic nondestructive testing; MSRE; adaptive equalisers
• ISSN: 1751-9659; 1751-9667; 1751-9667
• DOI: 10.1049/iet-ipr.2014.0716

To improve the accuracy of automatic defect segmentation in radiographic non-destructive testing and evaluation, the authors proposed a multi-step radiographic image enhancement algorithm (MSRE) conforming to weld defect segmentation. In this algorithm, the requirement of defect segmentation is fully considered when enhancing a radiographic testing image. The first-step enhancement is performed by linear weighting between an original radiographic image and its contrast-limited adaptive histogram equalisation image. Anisotropic diffusion filtering is used for simultaneously smoothing the weighted image and preserving the defect edges very well. Then, the filtered image is enhanced by a fuzzy enhancement algorithm as the final-step enhancement and hence, obtaining a new image with high contrast, high definition, and strong edge intensity. The authors compared MSRE with adaptive histogram equalisation, fuzzy enhancement, global contrast enhancement, and local contrast enhancement algorithms and evaluated its performance by using indicators such as image contrast, definition, edge intensity, and information entropy. Furthermore, the authors compared the segmentation results of the enhanced images to further study the algorithm's effect on weld defect segmentation. Experimental results reveal that the quality of enhanced images is significantly improved by MSRE, and the image enhanced by MSRE has an high relative segmentation accuracy (RSA) of more than 95%.