Damage identification for multi-rotor drone using convolutional neural network technique

In contemporary society, multi-rotor drone have found extensive usage in various fields, such as agriculture, cargo transportation, and aerial photography. Damage to multi-rotor drone can compromise their safety and reduce efficiency. Therefore, early damage detection is crucial as it can prevent...

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Main Author: Ma, Yumeng
Format: Thesis
Language:English
Published: 2023
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Online Access:http://psasir.upm.edu.my/id/eprint/111808/1/FK%202023%203%20IR.pdf
http://psasir.upm.edu.my/id/eprint/111808/
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Institution: Universiti Putra Malaysia
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spelling my.upm.eprints.1118082024-08-27T07:48:41Z http://psasir.upm.edu.my/id/eprint/111808/ Damage identification for multi-rotor drone using convolutional neural network technique Ma, Yumeng In contemporary society, multi-rotor drone have found extensive usage in various fields, such as agriculture, cargo transportation, and aerial photography. Damage to multi-rotor drone can compromise their safety and reduce efficiency. Therefore, early damage detection is crucial as it can prevent catastrophic failures and decrease the associated economic and human costs. At present, visual inspection is the primary method used for detecting damage in multi- rotor drone. However, this technique may not be entirely reliable in identifying minor faults that are difficult to discern with the naked eye. This study focuses on three experimental parts; firstly,to fabricate a multi-rotor drone as the research subject; secondly, to develop a vibration data acquisition device with MPU6050 and STM32 micro-controller,and thirdly,to identify the damage using machine learning techniques. Damage scenarios were set by releasing the bolts at different conjunction points of the multi-rotor body frame.Three damaged cases were set by releasing one bolt at arm conjunction, two bolts at arm conjunction and one bolt at motor conjunction, respectively. The first case (undamaged) is considered as the reference. Any change in structure can reflect in a vibration signal. Three axes vibration data were acquired under different conditions,for the sake of safety,the UAV was conducted under the ground with a idol motor speed. After the data collection,the data preprocessing techniques linear interpolation method Laida criterion were adopted to process the missing data and inconsistent data.For damage identification,three machine learning techniques, including decision tree, random forest, K-Nearest- Neighbours (KNN) were adopted to identify the damage for multi-rotor drone and finally with the accuracy of 68.74%, 67.96%, 91.71%, respectively. Then, Convolutional Neural Networks (CNN), as the state-of-the-art machine learning technique also called deep learning was proposed and achieved outstanding success with 100% accuracy for damage identification. It is important to consider the parameter used in the CNN,so,in this research,the parameter used in the CNN,including sample length, convolution kernel, number of convolutional layer,activation function,batch-size,dropout,learning rate were analyzed by Python platform and the best parameter were selected.In summary, machine learning techniques can effectively detect damage for multi- rotor drone, however,CNN technique convolutional neural network possesses superior feature extraction capability and classification accuracy compared to traditional machine learning techniques. 2023-09 Thesis NonPeerReviewed text en http://psasir.upm.edu.my/id/eprint/111808/1/FK%202023%203%20IR.pdf Ma, Yumeng (2023) Damage identification for multi-rotor drone using convolutional neural network technique. Doctoral thesis, UPM. Flying-machines. Rotors. Neural networks (Computer science).
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
topic Flying-machines.
Rotors.
Neural networks (Computer science).
spellingShingle Flying-machines.
Rotors.
Neural networks (Computer science).
Ma, Yumeng
Damage identification for multi-rotor drone using convolutional neural network technique
description In contemporary society, multi-rotor drone have found extensive usage in various fields, such as agriculture, cargo transportation, and aerial photography. Damage to multi-rotor drone can compromise their safety and reduce efficiency. Therefore, early damage detection is crucial as it can prevent catastrophic failures and decrease the associated economic and human costs. At present, visual inspection is the primary method used for detecting damage in multi- rotor drone. However, this technique may not be entirely reliable in identifying minor faults that are difficult to discern with the naked eye. This study focuses on three experimental parts; firstly,to fabricate a multi-rotor drone as the research subject; secondly, to develop a vibration data acquisition device with MPU6050 and STM32 micro-controller,and thirdly,to identify the damage using machine learning techniques. Damage scenarios were set by releasing the bolts at different conjunction points of the multi-rotor body frame.Three damaged cases were set by releasing one bolt at arm conjunction, two bolts at arm conjunction and one bolt at motor conjunction, respectively. The first case (undamaged) is considered as the reference. Any change in structure can reflect in a vibration signal. Three axes vibration data were acquired under different conditions,for the sake of safety,the UAV was conducted under the ground with a idol motor speed. After the data collection,the data preprocessing techniques linear interpolation method Laida criterion were adopted to process the missing data and inconsistent data.For damage identification,three machine learning techniques, including decision tree, random forest, K-Nearest- Neighbours (KNN) were adopted to identify the damage for multi-rotor drone and finally with the accuracy of 68.74%, 67.96%, 91.71%, respectively. Then, Convolutional Neural Networks (CNN), as the state-of-the-art machine learning technique also called deep learning was proposed and achieved outstanding success with 100% accuracy for damage identification. It is important to consider the parameter used in the CNN,so,in this research,the parameter used in the CNN,including sample length, convolution kernel, number of convolutional layer,activation function,batch-size,dropout,learning rate were analyzed by Python platform and the best parameter were selected.In summary, machine learning techniques can effectively detect damage for multi- rotor drone, however,CNN technique convolutional neural network possesses superior feature extraction capability and classification accuracy compared to traditional machine learning techniques.
format Thesis
author Ma, Yumeng
author_facet Ma, Yumeng
author_sort Ma, Yumeng
title Damage identification for multi-rotor drone using convolutional neural network technique
title_short Damage identification for multi-rotor drone using convolutional neural network technique
title_full Damage identification for multi-rotor drone using convolutional neural network technique
title_fullStr Damage identification for multi-rotor drone using convolutional neural network technique
title_full_unstemmed Damage identification for multi-rotor drone using convolutional neural network technique
title_sort damage identification for multi-rotor drone using convolutional neural network technique
publishDate 2023
url http://psasir.upm.edu.my/id/eprint/111808/1/FK%202023%203%20IR.pdf
http://psasir.upm.edu.my/id/eprint/111808/
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