Aerospace Engineering

Kuo-Chien Liao1This email address is being protected from spambots. You need JavaScript enabled to view it., Jirayu Lau2, and Yu-Chiang Hsu2

1Graduate Institute of Aeronautics, Chaoyang University of Technology, Taiwan

2Department of Aeronautical Engineering, Chaoyang University of Technology, Taiwan

 

 

Received: May 16, 2025
Accepted: July 13, 2025
Publication Date: August 1, 2025

 Copyright The Author(s). This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are cited.


Download Citation: ||https://doi.org/10.6180/jase.202603_29(4).0011  


This paper presents a defect detection system for aircraft composite materials that integrates active infrared thermography with a lightweight YOLO11n deep learning model. The proposed approach utilize the heat conduction behavior described by Fourier’s Law to identify subsurface defects such as delamination and disbonds by visualizing heat flow anomalies under controlled thermal excitation. To enhance mobility and practical deployment, the system combines portable thermal cameras, UAV-mounted thermal imaging, and real-time detection pipelines implemented through a custom iOS application. Results show that the mobile detection pipeline achieves real-time performance with an average speed of approximately 24 FPS, while UAV inspections are limited by battery life and network transmission delays. This study demonstrates the feasibility of combining thermography with mobile deep learning to support flexible, efficient inspections during routine base maintenance and highlights key areas for future optimization.


Keywords: Aircraft Composite Materials; Infrared Thermography; YOLO11n; Deep Learning; Non-Destructive Testing (NDT); UAV Inspection; Real-Time Defect Detection


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