Surface anomaly detection using feature-based transfer learning for IoT-enabled smart manufacturing

Muhammad Ateeq; Matilda Isaac; Hadyan Hafizh; Bintao Hu; Ismail Mohd Khairuddin; Muhammad Amirul Abdullah; Anwar PP Abdul Majeed

Surface anomaly detection using feature-based transfer learning for IoT-enabled smart manufacturing

Muhammad Ateeq, Matilda Isaac, Hadyan Hafizh, Bintao Hu, Ismail Mohd Khairuddin, Muhammad Amirul Abdullah, Anwar PP Abdul Majeed

Universiti Malaysia Pahang Al-Sultan Abdullah

Research output: Contribution to conference › Paper › peer-review

Abstract

Owing to the advancement of computational technology, the employment of deep learning architecture for defect detection in the manufacturing industry has gained considerable attention. Traditional means of defect detection through manual vis-ual inspection by operators are laborious as well as susceptible to mistakes. In the present study, a feature-based transfer learning approach is used to classify sur-face defects. The KolektorSDD database is used in the present study. Two pipe-lines were developed to investigate their efficacy in detecting the defects, namely the InceptionV3-SVM and VGG19-SVM pipelines, respectively. It was demon-strated from the study that the VGG19-SVM pipeline could provide desirable re-sults compared to the InceptionV3-SVM pipeline, suggesting that the VGG19 is a better feature extractor for the evaluated surface defects. It could be concluded that the proposed pipeline is suitable for the classification of surface defects.

Original language	English
Number of pages	8
Publication status	E-pub ahead of print - 22 Aug 2023
Event	7th International Conference on Electrical, Control, and Computer Engineering (InECCE 2023) - Royal Chulan Damansara, Kuala Lumpur, Malaysia Duration: 22 Aug 2023 → 22 Aug 2023 Conference number: 7th https://events.ump.edu.my/event/others/7th-international-conference-electrical-control-and-computer-engineering-inecce-2023

Conference

Conference	7th International Conference on Electrical, Control, and Computer Engineering (InECCE 2023)
Country/Territory	Malaysia
City	Kuala Lumpur
Period	22/08/23 → 22/08/23
Internet address	https://events.ump.edu.my/event/others/7th-international-conference-electrical-control-and-computer-engineering-inecce-2023

Keywords

Smart Manufacturing
Metal Surfaces Defects
Defect Detection
Feature-based Transfer Learning
Industry 4.0
Industrial IoT
Machine Learning
Deep learning

Cite this

Ateeq, M., Isaac, M., Hafizh, H., Hu, B., Mohd Khairuddin, I., Abdullah, M. A., & PP Abdul Majeed, A. (2023). Surface anomaly detection using feature-based transfer learning for IoT-enabled smart manufacturing. Paper presented at 7th International Conference on Electrical, Control, and Computer Engineering (InECCE 2023), Kuala Lumpur, Malaysia. Advance online publication.

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title = "Surface anomaly detection using feature-based transfer learning for IoT-enabled smart manufacturing",

abstract = "Owing to the advancement of computational technology, the employment of deep learning architecture for defect detection in the manufacturing industry has gained considerable attention. Traditional means of defect detection through manual vis-ual inspection by operators are laborious as well as susceptible to mistakes. In the present study, a feature-based transfer learning approach is used to classify sur-face defects. The KolektorSDD database is used in the present study. Two pipe-lines were developed to investigate their efficacy in detecting the defects, namely the InceptionV3-SVM and VGG19-SVM pipelines, respectively. It was demon-strated from the study that the VGG19-SVM pipeline could provide desirable re-sults compared to the InceptionV3-SVM pipeline, suggesting that the VGG19 is a better feature extractor for the evaluated surface defects. It could be concluded that the proposed pipeline is suitable for the classification of surface defects.",

keywords = "Smart Manufacturing, Metal Surfaces Defects, Defect Detection, Feature-based Transfer Learning, Industry 4.0, Industrial IoT, Machine Learning, Deep learning",

author = "Muhammad Ateeq and Matilda Isaac and Hadyan Hafizh and Bintao Hu and {Mohd Khairuddin}, Ismail and Abdullah, {Muhammad Amirul} and {PP Abdul Majeed}, Anwar",

year = "2023",

month = aug,

day = "22",

language = "English",

note = "7th International Conference on Electrical, Control, and Computer Engineering (InECCE 2023) ; Conference date: 22-08-2023 Through 22-08-2023",

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TY - CONF

T1 - Surface anomaly detection using feature-based transfer learning for IoT-enabled smart manufacturing

AU - Ateeq, Muhammad

AU - Isaac, Matilda

AU - Hafizh, Hadyan

AU - Hu, Bintao

AU - Mohd Khairuddin, Ismail

AU - Abdullah, Muhammad Amirul

AU - PP Abdul Majeed, Anwar

N1 - Conference code: 7th

PY - 2023/8/22

Y1 - 2023/8/22

N2 - Owing to the advancement of computational technology, the employment of deep learning architecture for defect detection in the manufacturing industry has gained considerable attention. Traditional means of defect detection through manual vis-ual inspection by operators are laborious as well as susceptible to mistakes. In the present study, a feature-based transfer learning approach is used to classify sur-face defects. The KolektorSDD database is used in the present study. Two pipe-lines were developed to investigate their efficacy in detecting the defects, namely the InceptionV3-SVM and VGG19-SVM pipelines, respectively. It was demon-strated from the study that the VGG19-SVM pipeline could provide desirable re-sults compared to the InceptionV3-SVM pipeline, suggesting that the VGG19 is a better feature extractor for the evaluated surface defects. It could be concluded that the proposed pipeline is suitable for the classification of surface defects.

AB - Owing to the advancement of computational technology, the employment of deep learning architecture for defect detection in the manufacturing industry has gained considerable attention. Traditional means of defect detection through manual vis-ual inspection by operators are laborious as well as susceptible to mistakes. In the present study, a feature-based transfer learning approach is used to classify sur-face defects. The KolektorSDD database is used in the present study. Two pipe-lines were developed to investigate their efficacy in detecting the defects, namely the InceptionV3-SVM and VGG19-SVM pipelines, respectively. It was demon-strated from the study that the VGG19-SVM pipeline could provide desirable re-sults compared to the InceptionV3-SVM pipeline, suggesting that the VGG19 is a better feature extractor for the evaluated surface defects. It could be concluded that the proposed pipeline is suitable for the classification of surface defects.

KW - Smart Manufacturing

KW - Metal Surfaces Defects

KW - Defect Detection

KW - Feature-based Transfer Learning

KW - Industry 4.0

KW - Industrial IoT

KW - Machine Learning

KW - Deep learning

M3 - Paper

T2 - 7th International Conference on Electrical, Control, and Computer Engineering (InECCE 2023)

Y2 - 22 August 2023 through 22 August 2023

ER -

Surface anomaly detection using feature-based transfer learning for IoT-enabled smart manufacturing

Abstract

Conference

Keywords

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