A pseudo‐colour enhancement algorithm for high‐bit RAW greyscale image of X‐ray film displaying on low‐bit monitors

Abstract

X-ray flaw detection is widely used in non-destructive area. The intuitive defect information can be obtained through the X-ray film, which is usually digitized into high greyscale image by a 12-bit or 16-bit, called super 8-bit, industrial scanner. When an ordinary 8-bit monitor displays a super 8-bit greyscale image, it appears loss of detail information, blurring of the image appears and other problems. Therefore, in this paper, a pseudo-colour enhancement algorithm for displaying high-bit RAW images on low-bit monitor was proposed according to the chromatographic mapping relationship based on the visual characteristics of human eye. First, a high grey-scale pseudo-colour enhancement algorithm, called HOTM-HGL, based on hot metal coding was proposed based on the standard film, whose enhancement effect is better than current mainstream algorithms. Second, aiming at the non-standard film, a new stretching function called RAW-Optical-Stretching was reconstructed to improve HOTM-HGL algorithm, called HOTM-HGLS algorithm, whose display effect on ordinary monitors was improved in further. Finally, HOTM-HGLS algorithm was applied in the detection of X-ray film defect, which was convenient for the capture of defect information in the weld. Compared with the existing algorithms, various indicators have been greatly improved, enriching the amount of information and strengthening the image recognition effects.