Surface Quality Monitoring and Improvement for Dimensional Metrology in Inline CT by Denoising with Neural Networks and Fast Surface Quality Metric

Surface Quality Monitoring and Improvement for Dimensional Metrology in Inline CT by Denoising with Neural Networks and Fast Surface Quality Metric

Inline computed tomography (CT) is becoming increasingly important for 100% inspection in production technology. However, the short machine cycle times—often just a few minutes—require either fewer X-ray projections or shorter detector exposure times, significantly reducing photon counts by one to...

Full description

Saved in:
Bibliographic Details
Main Authors: Faizan Ahmad, Ahmed Baraka, César Cardona-Marin, Steffen Kieß, Dominik Wolfschläger, Robert H. Schmitt, Sven Simon
Format: Article
Language:deu
Published: NDT.net 2025-02-01
Series:e-Journal of Nondestructive Testing
Online Access:https://www.ndt.net/search/docs.php3?id=30723
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1832086561496236032
author Faizan Ahmad
Ahmed Baraka
César Cardona-Marin
Steffen Kieß
Dominik Wolfschläger
Robert H. Schmitt
Sven Simon
author_facet Faizan Ahmad
Ahmed Baraka
César Cardona-Marin
Steffen Kieß
Dominik Wolfschläger
Robert H. Schmitt
Sven Simon
author_sort Faizan Ahmad
collection DOAJ
description Inline computed tomography (CT) is becoming increasingly important for 100% inspection in production technology. However, the short machine cycle times—often just a few minutes—require either fewer X-ray projections or shorter detector exposure times, significantly reducing photon counts by one to two orders of magnitude compared to lab-based CT systems. This reduction leads to a decrease in the signal-to-noise ratio (SNR) by at least an order of magnitude, thereby increasing noise and diminishing the accuracy of surface measurements essential for metrology. To address this challenge, denoising methods based on neural networks have been used, outperforming traditional algorithms such as BM3D. In this work, we investigate the Noise2Noise method, which trains a neural network using pairs of noisy images, eliminating the need for clean ground truth data—typically unavailable in CT. Furthermore, we propose a fast surface quality metric based on the marching cubes algorithm and Hausdorff distance to enable realtime monitoring of voxel dataset quality during continuous CT scans, as required in inline CT. This metric demonstrates a strong correlation with measurement errors associated with surface quality degradation due to noise. Experimental results show that our proposed methods significantly enhance surface quality and SNR of full CT data volumes, achieving denoising within minutes, as required for inline CT applications.
format Article
id doaj-art-2505eed16c68450cb8e32a3e9cddd78c
institution Kabale University
issn 1435-4934
language deu
publishDate 2025-02-01
publisher NDT.net
record_format Article
series e-Journal of Nondestructive Testing
spelling doaj-art-2505eed16c68450cb8e32a3e9cddd78c2025-02-06T10:48:18ZdeuNDT.nete-Journal of Nondestructive Testing1435-49342025-02-0130210.58286/30723Surface Quality Monitoring and Improvement for Dimensional Metrology in Inline CT by Denoising with Neural Networks and Fast Surface Quality MetricFaizan AhmadAhmed Barakahttps://orcid.org/0009-0007-5272-187XCésar Cardona-MarinSteffen Kießhttps://orcid.org/0009-0001-0899-0649Dominik Wolfschlägerhttps://orcid.org/0000-0003-2399-4856Robert H. Schmitthttps://orcid.org/0000-0002-0011-5962Sven Simon Inline computed tomography (CT) is becoming increasingly important for 100% inspection in production technology. However, the short machine cycle times—often just a few minutes—require either fewer X-ray projections or shorter detector exposure times, significantly reducing photon counts by one to two orders of magnitude compared to lab-based CT systems. This reduction leads to a decrease in the signal-to-noise ratio (SNR) by at least an order of magnitude, thereby increasing noise and diminishing the accuracy of surface measurements essential for metrology. To address this challenge, denoising methods based on neural networks have been used, outperforming traditional algorithms such as BM3D. In this work, we investigate the Noise2Noise method, which trains a neural network using pairs of noisy images, eliminating the need for clean ground truth data—typically unavailable in CT. Furthermore, we propose a fast surface quality metric based on the marching cubes algorithm and Hausdorff distance to enable realtime monitoring of voxel dataset quality during continuous CT scans, as required in inline CT. This metric demonstrates a strong correlation with measurement errors associated with surface quality degradation due to noise. Experimental results show that our proposed methods significantly enhance surface quality and SNR of full CT data volumes, achieving denoising within minutes, as required for inline CT applications. https://www.ndt.net/search/docs.php3?id=30723
spellingShingle Faizan Ahmad
Ahmed Baraka
César Cardona-Marin
Steffen Kieß
Dominik Wolfschläger
Robert H. Schmitt
Sven Simon
Surface Quality Monitoring and Improvement for Dimensional Metrology in Inline CT by Denoising with Neural Networks and Fast Surface Quality Metric
e-Journal of Nondestructive Testing
title Surface Quality Monitoring and Improvement for Dimensional Metrology in Inline CT by Denoising with Neural Networks and Fast Surface Quality Metric
title_full Surface Quality Monitoring and Improvement for Dimensional Metrology in Inline CT by Denoising with Neural Networks and Fast Surface Quality Metric
title_fullStr Surface Quality Monitoring and Improvement for Dimensional Metrology in Inline CT by Denoising with Neural Networks and Fast Surface Quality Metric
title_full_unstemmed Surface Quality Monitoring and Improvement for Dimensional Metrology in Inline CT by Denoising with Neural Networks and Fast Surface Quality Metric
title_short Surface Quality Monitoring and Improvement for Dimensional Metrology in Inline CT by Denoising with Neural Networks and Fast Surface Quality Metric
title_sort surface quality monitoring and improvement for dimensional metrology in inline ct by denoising with neural networks and fast surface quality metric
url https://www.ndt.net/search/docs.php3?id=30723
work_keys_str_mv AT faizanahmad surfacequalitymonitoringandimprovementfordimensionalmetrologyininlinectbydenoisingwithneuralnetworksandfastsurfacequalitymetric
AT ahmedbaraka surfacequalitymonitoringandimprovementfordimensionalmetrologyininlinectbydenoisingwithneuralnetworksandfastsurfacequalitymetric
AT cesarcardonamarin surfacequalitymonitoringandimprovementfordimensionalmetrologyininlinectbydenoisingwithneuralnetworksandfastsurfacequalitymetric
AT steffenkieß surfacequalitymonitoringandimprovementfordimensionalmetrologyininlinectbydenoisingwithneuralnetworksandfastsurfacequalitymetric
AT dominikwolfschlager surfacequalitymonitoringandimprovementfordimensionalmetrologyininlinectbydenoisingwithneuralnetworksandfastsurfacequalitymetric
AT roberthschmitt surfacequalitymonitoringandimprovementfordimensionalmetrologyininlinectbydenoisingwithneuralnetworksandfastsurfacequalitymetric
AT svensimon surfacequalitymonitoringandimprovementfordimensionalmetrologyininlinectbydenoisingwithneuralnetworksandfastsurfacequalitymetric

Similar Items