JKSMI
Journal of the Korea Institute for
Structural Maintenance and Inspection
KSMI
Contact
Open Access
Bi-monthly
ISSN : 2234-6937 (Print)
ISSN : 2287-6979 (Online)
http://journal.auric.kr/jksmi/
Mobile QR Code
Journal of the Korea Concrete Institute
J Korea Inst. Struct. Maint. Insp.
Indexed by
Korea Citation Index (KCI)
Main Menu
Main Menu
About Journal
Aims and Scope
Subscription Inquiry
Editorial Board
For Contributors
Instructions For Authors
Ethical Guideline
Crossmark Policy
Submission & Review
Archives
Current Issue
All Issues
Journal Search
Home
All Issues
2026-04
(Vol.30 No.2)
10.11112/jksmi.2026.30.2.52
Journal XML
XML
PDF
INFO
REF
References
1
Ali, L., Alnajjar, F., Al Jassmi, H., Gocho, M., Khan, W., Adel Serhani, M. (2021), Performance evaluation of deep CNN-based crack detection and localization techniques for concrete structures, Sensors, 21(5), 1688
2
Altaf, A., Mehmood, A., Filograno, M.L., Alharbi, S., Iqbal, J. (2025), Deployable deep learning models for crack detection: efficiency, interpretability, and severity estimation, Buildings, 15(18), 3362
3
Asvitha Valli, S., Ravi Kumar, M.S. (2018), Review on the mechanism and mitigation of cracks in concrete, Applications in Engineering Science, 16, 100154
4
Cha, Y.J., Choi, W.R., Büyüköztürk, O. (2017), Deep learning-based crack damage detection using convolutional neural networks, Computer-Aided Civil and Infrastructure Engineering, 32(5), 361-378.
5
Diniz, J.C.N., Paiva, A.C., Junior, G.B., Almeida, J.D.S., Silva, A.C., Cunha, A.M.T.S., Cunha, S.C.A.P.S. (2023), Amethod for detecting pathologies in concrete structures using deep neural networks, Applied Sciences, 13(9), 5763
6
Dorafshan, S., Thomas, R.J., Maguire, M. (2018), SDNET2018: An annotated image dataset for non-contact concrete crack detection using deep convolutional neural networks, Data in Brief, 21, 1664-1668.
7
Forest, F., Porta, H., Tuia, D., Fink, O. (2024), From classification to segmentation with explainable AI: A study on crack detection and growth monitoring, Automation in Construction, 165, 105497
8
Islam, M.M., Hossain, M.B., Akhtar, M.N., Ali Moni, M., Hasan, K.F. (2022), CNN based on transfer learning models using data augmentation and transformation for detection of concrete crack, Algorithms, 15(8), 287
9
Jeon, E.I., Lee, I.P., Kim, D.G. (2023), Crack detection in concrete using deep learning for underground facility safety inspection, Journal of Korean Tunneling and Underground Space Association, 25(6), 555-567.
10
Kavitha, S., Baskaran, K.R., Dhanapriya, B. (2023), Explainable AI for detecting fissures on concrete surfaces using transfer learning, Proceedings of the International Conference on Inventive Computation Technologies, 376-384.
11
Kim, B.H., Cho, S.J. (2020), Automated multiple concrete damage detection using instance segmentation deep learning model, Applied Sciences, 10(22), 8008
12
Kim, B.H., Cho, S.J., Chae, H.J., Kim, H.K., Kang, J.H. (2021), Development of crack detection system for highway tunnels using imaging device and deep learning, Journal of the Korea Institute for Structural Maintenance and Inspection, 25(4), 65-74.
13
Kim, I.S., Choi, S.Y., Yang, E.I. (2025), Analysis of performance and interpretability in CNN-based concrete damage classification using Grad-CAM, Journal of the Korea Institute for Structural Maintenance and Inspection, 29(6), 110-118.
14
Kim, I.S., Choi, S.Y., Yang, E.I. (2025), Concrete damage classification using CNN models with small-scale images: performance analysis and comparison, Journal of the Korea Institute for Structural Maintenance and Inspection, 29(6), 30-38.
15
Li, S., Zhao, X. (2019), Image-based concrete crack detection using convolutional neural network and exhaustive search technique, Advances in Civil Engineering, 2019, 6520620
16
Mazni, M., Husain, A.R., Shapiai, M.I., Ibrahim, I.S., Zulkifli, R., Anggara, D.W. (2024), Identification of concrete cracks using deep learning models: A systematic review, Applications of Modelling and Simulation, 8, 1-25.
17
Ogunjinmi, P.D., Park, S.S., Kim, B.R., Lee, D.E. (2022), Rapid post-earthquake structural damage assessment using convolutional neural networks and transfer learning, Sensors, 22(9), 3471
18
Philip, R.E., Andrushia, A.D., Nammalvar, A., Gurupatham, B.G.A., Roy, K. (2023), A comparative study on crack detection in concrete walls using transfer learning techniques, Journal of Composites Science, 7(4), 169
19
Roy, S., Yogi, B., Majumdar, R., Ghosh, P., Das, S.K. (2025), Deep learning‑based crack detection and prediction for structural health monitoring, Discover Applied Sciences, 7, 674
20
Sam Rajadurai, R., Kang, S.T. (2021), Automated vision-based crack detection on concrete surfaces using deep learning, Applied sciences, 11(11), 5229
21
Shomal Zadeh, S., Aalipour birgani, S., Khorshidi, M., Kooban, F. (2023), Concrete surface crack detection with convolutional-based deep learning models, International Journal of Novel Research in Civil Structural and Earth Sciences, 10(3), 25-35.
22
Sohaib, M., Hasan, M.J., Hasan, M.A., Zheng, Z. (2024), A robust self-supervised approach for fine-grained crack detection in concrete structures, Scientific Reports, 14, 12646
23
Su, C., Wang, W. (2020), Concrete cracks detection using convolutional neural network based on transfer learning, Mathematical Problems in Engineering, 2020, 7240129
24
Szegedy, C., Liu, W., Jia, Y., Sermanet, P., Reed, S., Anguelov, D., Erhan, D., Vanhoucke, V., Rabinovich, A. (2015), Going deeper with convolutions, Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, 1-9.
25
Yang, L., Zhu, D., Liu, X. (2024), An efficient method for identifying surface damage in hydraulic concrete buildings, Scientific Reports, 14, 31277
26
Yuan, Q., Shi, Y., Li, M. (2024), A review of computer vision-based crack detection methods in civil infrastructure: progress and challenges, Remote Sensing, 16(16), 2910
