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Nondestructive Testing and Evaluation Volume 39, 2024 - Issue 2
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Research Articles

Structural fault diagnosis of UAV based on convolutional neural network and data processing technology

Yumeng Maa Departments of Aerospace Engineering,Faculty of Engineering, Universiti Putra Malaysia, Serdang, Selangor, Malaysia;b College of Aeronautical Engineering, BinZhou University, BinZhou, ShanDong, China;c Engineering Research Center of Aeronautical Materials and Devices of Aeronautical Engineering, BinZhou university, BinZhou, ShanDong, ChinaCorrespondence[email protected]
,
Faizal Mustaphaa Departments of Aerospace Engineering,Faculty of Engineering, Universiti Putra Malaysia, Serdang, Selangor, Malaysia
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Mohamad Ridzwan Ishaka Departments of Aerospace Engineering,Faculty of Engineering, Universiti Putra Malaysia, Serdang, Selangor, Malaysia;d Aerospace Malaysia Research Centre (AMRC), Faculty of Engineering, Universiti Putra Malaysia, Serdang, Selangor, Malaysia;e Laboratory of Biocomposite Technology, Institute of Tropical Forestry and Forest Products (INTROP), Universiti Putra Malaysia, Selangor, MalaysiaORCID Iconhttps://orcid.org/0000-0001-6923-2481
ORCID Icon,
Sharafiz Abdul Rahimf Department of Mechanical and Manufacturing Engineering,Faculty of Engineering, Universiti Putra Malaysia, Selangor, Malaysia
&
Mazli Mustaphag Department of Mechanical Engineering, Universiti Teknologi PETRONAS, Iskandar, Perak, Malaysia
Pages 426-445 | Received 23 Dec 2022, Accepted 19 Apr 2023, Published online: 27 Apr 2023
 
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ABSTRACT

This study presents a novel method for damage detection and identification in unmanned aerial vehicles (UAVs) using vibration data gathering and processing technologies based on deep learning. To conduct the study, a quad-rotor UAV was manufactured, and a vibration data acquisition system was developed to collect vibration data along three axes under normal and three damage scenarios. Empirical mode decomposition (EMD) was employed to reduce high-frequency noise in the signals, and the root mean square error (RMSE) feature was utilised to select the Y-axis acceleration data, which exhibits significant changes across different damage cases. Finally, a convolutional neural network was used to identify the damage based on the vibration data. Experimental results demonstrate that the proposed method achieved 97.5% accuracy using selected and noise-reduced Y-axis acceleration data, thereby indicating its usefulness in diagnosing damage types in multi-rotor UAVs.

Disclosure statement

No potential conflict of interest was reported by the authors.

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