Advanced diagnostics of aircraft structures using automated non-invasive imaging techniques: a comprehensive review
Advanced diagnostics of aircraft structures using automated non-invasive imaging techniques: a comprehensive review
The aviation industry currently faces several challenges in inspecting and diagnosing aircraft structures. Current aircraft inspection methods still need to be fully automated, making early detection and precise sizing of defects difficult. Researchers have expressed concerns about current aircraft inspections, citing safety, maintenance costs, and reliability issues. The next generation of aircraft inspection leverages semi-autonomous and fully autonomous systems integrating robotic technologies with advanced Non-Destructive Testing (NDT) methods. Active Thermography (AT) is an example of an NDT method widely used for non-invasive aircraft inspection to detect surface and near-surface defects, such as delamination, debonding, corrosion, impact damage, and cracks. It is suitable for both metallic and non-metallic materials and does not require a coupling agent or direct contact with the test piece, minimising contamination. Visual inspection using an RGB camera is another well-known non-contact NDT method capable of detecting surface defects. A newer option for NDT in aircraft maintenance is 3D scanning, which uses laser or LiDAR (Light Detection and Ranging) technologies. This method offers several advantages, including non-contact operation, high accuracy, and rapid data collection. It is effective across various materials and shapes, enabling the creation of detailed 3D models. An alternative approach to laser and LiDAR technologies is photogrammetry. Photogrammetry is cost-effective in comparison with laser and LiDAR technologies. It can acquire high-resolution texture and colour information, which is especially important in the field of maintenance inspection. In this proposed approach, an automated vision-based damage evaluation system will be developed capable of detecting and characterising defects in metallic and composite aircraft specimens by analysing 3D data acquired using an RGB camera and a IRT camera through photogrammetry. Such a combined approach is expected to improve defect detection accuracy, reduce aircraft downtime and operational costs, improve reliability and safety and minimise human error.
NDT, aircraft inspection, composites, defect detection, defect estimation, machine-learning, metallic, photogrammetry, thermography, visual inspection
Bardis, Kostas
8986b927-904c-448d-9543-adfb19b63066
Avdelidis, Nicolas P.
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Ibarra-Castanedo, Clemente
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Maldague, Xavier. P.V.
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Fernandes, Henrique
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April 2025
Bardis, Kostas
8986b927-904c-448d-9543-adfb19b63066
Avdelidis, Nicolas P.
a3de63a8-48ff-4664-b6fa-8650721f39bb
Ibarra-Castanedo, Clemente
a3e1a210-73d5-43ac-ae18-5dbe2f28cce9
Maldague, Xavier. P.V.
aa79ac8e-321d-43db-9e42-c2a3f1dc2c0e
Fernandes, Henrique
010117e0-67cd-41b9-b6e9-ea6bd6c93e4c
Bardis, Kostas, Avdelidis, Nicolas P., Ibarra-Castanedo, Clemente, Maldague, Xavier. P.V. and Fernandes, Henrique
(2025)
Advanced diagnostics of aircraft structures using automated non-invasive imaging techniques: a comprehensive review.
Journal of Applied Sciences, 15 (7), [3584].
(doi:10.3390/app15073584).
Abstract
The aviation industry currently faces several challenges in inspecting and diagnosing aircraft structures. Current aircraft inspection methods still need to be fully automated, making early detection and precise sizing of defects difficult. Researchers have expressed concerns about current aircraft inspections, citing safety, maintenance costs, and reliability issues. The next generation of aircraft inspection leverages semi-autonomous and fully autonomous systems integrating robotic technologies with advanced Non-Destructive Testing (NDT) methods. Active Thermography (AT) is an example of an NDT method widely used for non-invasive aircraft inspection to detect surface and near-surface defects, such as delamination, debonding, corrosion, impact damage, and cracks. It is suitable for both metallic and non-metallic materials and does not require a coupling agent or direct contact with the test piece, minimising contamination. Visual inspection using an RGB camera is another well-known non-contact NDT method capable of detecting surface defects. A newer option for NDT in aircraft maintenance is 3D scanning, which uses laser or LiDAR (Light Detection and Ranging) technologies. This method offers several advantages, including non-contact operation, high accuracy, and rapid data collection. It is effective across various materials and shapes, enabling the creation of detailed 3D models. An alternative approach to laser and LiDAR technologies is photogrammetry. Photogrammetry is cost-effective in comparison with laser and LiDAR technologies. It can acquire high-resolution texture and colour information, which is especially important in the field of maintenance inspection. In this proposed approach, an automated vision-based damage evaluation system will be developed capable of detecting and characterising defects in metallic and composite aircraft specimens by analysing 3D data acquired using an RGB camera and a IRT camera through photogrammetry. Such a combined approach is expected to improve defect detection accuracy, reduce aircraft downtime and operational costs, improve reliability and safety and minimise human error.
Text
applsci-15-03584
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Accepted/In Press date: 19 March 2025
e-pub ahead of print date: 25 March 2025
Published date: April 2025
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Publisher Copyright:
© 2025 by the authors.
Keywords:
NDT, aircraft inspection, composites, defect detection, defect estimation, machine-learning, metallic, photogrammetry, thermography, visual inspection
Identifiers
Local EPrints ID: 500478
URI: http://eprints.soton.ac.uk/id/eprint/500478
ISSN: 1812-5654
PURE UUID: eaf4ab12-c56f-4da8-8b92-03d8cd4837fc
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Date deposited: 01 May 2025 16:36
Last modified: 22 Aug 2025 02:43
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Contributors
Author:
Kostas Bardis
Author:
Nicolas P. Avdelidis
Author:
Clemente Ibarra-Castanedo
Author:
Xavier. P.V. Maldague
Author:
Henrique Fernandes
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