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عنوان
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Welded Pipe Defect Detection Enhancement Using Regularized Kernel Estimation-Based Image Processing in Radiographic Testing
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نوع پژوهش
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مقاله چاپشده در مجلات علمی
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کلیدواژهها
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weld defects, pipe, industrial radiography, image enhancement, fast-regularized kernel estimation
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چکیده
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Confirmation of the integrity of welded pipes is of critical importance in the oil and gas industry and radiography testing (RT) is used as the gold standard for non-destructive testing (NDT) inspection. Radiography is based on the penetration of X-rays or gamma-rays through the object and the measurement of the intensity of the traversing radiation. Unfortunately, intrinsic to the measurement is the undesired detection of scattered radiation which constitutes the imaging noise and manifests in image blurriness. Seamless detection of the presence and evaluation of weld defects necessities high testing sensitivity which requires the selective removal of the blurring and enhancement of the imaging contrast. Software-based removal of the blurriness is achievable by estimation of a “blur kernel” and data processing using various methods. Two such methods that are widely used include the “fast ℓ0 ” regularized kernel estimation (ℓ0 -RKE) and a modification of the Goldstein–Fattal method (MGFM). In the study reported here, the ℓ0 -RKE and the MGFM methods were implemented and applied to the radiographs of welded pipes. Improvement of defect region and weld root evaluation was achieved using these methods through the sharpening of the radiograph feature edges/detail. Comparison with the unaided evaluation of the original blurred radiographs by expert operators confirmed the improved visualization for both algorithms. Although the ℓ0 -RKE algorithm enhanced the image to a greater extent than the MGFM method, the MGFM algorithm was much faster with run-times of almost half of those for the ℓ0 -RKE algorithm.
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پژوهشگران
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عفت یاحقی (نفر اول)، امیر موافقی (نفر دوم)، مهدی میرزاپور (نفر سوم)
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