Machine Learning Application for Concrete Surface Defects Automatic Damage Classification

Defects damage in concrete structures are an important measure of structural integrity and serviceability. In the context of investigating the condition of concrete surface that has defects, a visual inspection is usually performed. However, this method is subjective, tedious, time-consuming, and co...

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Published in:JURNAL KEJURUTERAAN
Main Authors: Senin, Syahrul Fithry; Yusuf, Khairullah; Yusuf, Amer; Rohim, Rohamezan
Format: Article
Language:English
Published: UKM PRESS 2024
Subjects:
Online Access:https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001157147500026
author Senin
Syahrul Fithry; Yusuf
Khairullah; Yusuf
Amer; Rohim
Rohamezan
spellingShingle Senin
Syahrul Fithry; Yusuf
Khairullah; Yusuf
Amer; Rohim
Rohamezan
Machine Learning Application for Concrete Surface Defects Automatic Damage Classification
Engineering
author_facet Senin
Syahrul Fithry; Yusuf
Khairullah; Yusuf
Amer; Rohim
Rohamezan
author_sort Senin
spelling Senin, Syahrul Fithry; Yusuf, Khairullah; Yusuf, Amer; Rohim, Rohamezan
Machine Learning Application for Concrete Surface Defects Automatic Damage Classification
JURNAL KEJURUTERAAN
English
Article
Defects damage in concrete structures are an important measure of structural integrity and serviceability. In the context of investigating the condition of concrete surface that has defects, a visual inspection is usually performed. However, this method is subjective, tedious, time-consuming, and complicated, requiring access to many components of a large project design. Therefore, a Machine Learning classifier for concrete surface defect classification using the Discriminant Analysis Classifier was introduced to more accurately extract the types of concrete surface defects information from the digital images. The aim of this research is to increase the efficiency of concrete surface defect analysis in terms of quality, time and cost. 200 images were collected, with 50 images for each concrete defect (crack, corrosion, spalling, and no defect) serving as control data. The Gray Level Co-Occurrence Matrix (GLCM) is used to create an image processing and feature extraction algorithm. This model is trained using 80% of the image data and tested using another 20% of the image data. Thus, the model achieved 95% accuracy on the training data and 70% on the test data when using Quadratic Discriminant Analysis. These findings is very important to help engineers or construction inspectors in inspection activities.
UKM PRESS
0128-0198
2289-7526
2024
36
1
10.17576/jkukm-2023
Engineering

WOS:001157147500026
https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001157147500026
title Machine Learning Application for Concrete Surface Defects Automatic Damage Classification
title_short Machine Learning Application for Concrete Surface Defects Automatic Damage Classification
title_full Machine Learning Application for Concrete Surface Defects Automatic Damage Classification
title_fullStr Machine Learning Application for Concrete Surface Defects Automatic Damage Classification
title_full_unstemmed Machine Learning Application for Concrete Surface Defects Automatic Damage Classification
title_sort Machine Learning Application for Concrete Surface Defects Automatic Damage Classification
container_title JURNAL KEJURUTERAAN
language English
format Article
description Defects damage in concrete structures are an important measure of structural integrity and serviceability. In the context of investigating the condition of concrete surface that has defects, a visual inspection is usually performed. However, this method is subjective, tedious, time-consuming, and complicated, requiring access to many components of a large project design. Therefore, a Machine Learning classifier for concrete surface defect classification using the Discriminant Analysis Classifier was introduced to more accurately extract the types of concrete surface defects information from the digital images. The aim of this research is to increase the efficiency of concrete surface defect analysis in terms of quality, time and cost. 200 images were collected, with 50 images for each concrete defect (crack, corrosion, spalling, and no defect) serving as control data. The Gray Level Co-Occurrence Matrix (GLCM) is used to create an image processing and feature extraction algorithm. This model is trained using 80% of the image data and tested using another 20% of the image data. Thus, the model achieved 95% accuracy on the training data and 70% on the test data when using Quadratic Discriminant Analysis. These findings is very important to help engineers or construction inspectors in inspection activities.
publisher UKM PRESS
issn 0128-0198
2289-7526
publishDate 2024
container_volume 36
container_issue 1
doi_str_mv 10.17576/jkukm-2023
topic Engineering
topic_facet Engineering
accesstype
id WOS:001157147500026
url https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001157147500026
record_format wos
collection Web of Science (WoS)
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