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1 
ACI Committee 228 (2013) Report on Nondestructive Test Methods for Evaluation of Concrete in Structures (ACI 228.2 R-13). Farmington Hills, MI: American Concrete Institute (ACI).URL
2 
Ahn, S. (2022) Example of 2D Convolution. songho.ca. http://www.songho.ca/dsp/convolution/convolution2d_example.html. Accessed 11 July 2023.URL
3 
Andi, M., and Yohanes, G. R. (2019) Experimental Study of Crack Depth Measurement of Concrete with Ultrasonic Pulse Velocity (UPV). IOP Conference Series: Materials Science and Engineering 673(1), 012047. IOP Publishing.DOI
4 
Bang, J. H., Park, D. H., Lee, W. J., Kim, D. H., and Kim, H. N. (2022) Time-of-Arrival and Pulse-Width Estimation Method Robust to Weak Signal Environment in Electronic Warfare. The Journal of Korean Institute of Communications and Information Sciences 47(12), 2127-2139. (In Korean)DOI
5 
Carlomagno, G. M., and Berardi, P. G. (1976) Unsteady Thermotopography in Non-destructive Testing. In Proceedings 3rd Biannual Exchange. St. Louis: USA. 33-40.URL
6 
Chu, S. Y., Kang, C. J., Hu, M. X., and Chang, L. C. (2022) Rapid Damage Assessment of 1/3 Scaled-down Two-story Reinforced Concrete School Building Models. Journal of Structural Integrity and Maintenance 7(2), 110-119.DOI
7 
Colombani, I. A., and Andrawes, B. (2022) A Study of Multi- target Image-based Displacement Measurement Approach for Field Testing of Bridges. Journal of Structural Integrity and Maintenance 7(4), 207-216.DOI
8 
Dung, C. V. (2019) Autonomous Concrete Crack Detection Using Deep Fully Convolutional Neural Network. Automation in Construction 99, 52-58.DOI
9 
FLIR (2022) FLIR One Pro-Series Tri-Fold. Teledyne FLIR. https://www.flirkorea.com/support/products/flir-one-pro/?vertical=condition+monitoring&segment=solutions#Documents. Accessed 11 July 2023. (In Korean)URL
10 
Gade, R., and Moeslund, T. B. (2014) Thermal Cameras and Applications: a Survey. Machine Vision and Application 25, 245-262.DOI
11 
Gharehbaghi, V. R., Kalbkhani, H., Noroozinejad Farsangi, E., Yang, T. Y., Nguyen, A., Mirjalili, S., and Málaga-Chuquitaype, C. (2022) A Novel Approach for Deterioration and Damage Identification in Building Structures Based on Stockwell-Transform and Deep Convolutional Neural Network. Journal of Structural Integrity and Maintenance 7(2), 136-150.DOI
12 
Hwang, J., and Shim, M. (2023) Experimental Evaluation Method of Carbonation in Concrete Structure Using Nonlinear Resonant Ultrasonic Spectroscopy. Journal of the Korean Society of Hazard Mitigation 23(1), 141-146. (In Korean)DOI
13 
KALIS (2021) 2021 Annual Report on Facility Statistics. Korea Authority of Land and Infrastructure Safety. http://assi.or.kr/ upload/gongji/2021%20%EC%8B%9C%EC%84%A4%EB%AC%BC%20%ED%86%B5%EA%B3%84%EC%97%B0%EB%B3%B4.pdf. Accessed 11 July 2023. (In Korean)URL
14 
Killick, R., Fearnhead, P., and Eckley, I. A. (2012) Optimal Detection of Changepoints with a Linear Computational Cost. Journal of the American Statistical Association 107(500), 1590-1598.DOI
15 
Kim, J. C. (2023) Experimental Study on Infrared Thermography Method for Crack Detection of Concrete Structure Covered by Finishing Materials. Review of Architecture and Building Science 67(3), 34-37. (In Korean)URL
16 
Kim, S., and Kim, S. (2018) Daejong Building Safety Grade ‘A→E’ in 9 Months... an Incredible Safety Check with One’s Measurement. Chosunilbo. 14 December. https://www.chosun.com/site/data/html_dir/2018/12/14/2018121400303.html. Accessed 11 July 2023. (In Korean)URL
17 
Lee, R., and Sohn, H. (2022) An Integrated Thermography and Vision System for Steel Structure Coating Condition Assessment. KSCE Journal of Civil Engineering 70(12), 148-151. (In Korean)URL
18 
Lee, T. M., Choi, H. J., and Kang, S. M. (2022) Development of GPR Imaging Algorithm to Detect Void-like Defects in Reinforced Concrete Elements. Journal of the Korean Society for Nondestructive Testing 42(4), 302-309. (In Korean)URL
19 
MOLIT (2019) Safety Management Measures for Old Buildings. Ministry of Land, Infrastructure and Transport (MOLIT). http://www.molit.go.kr/srocm/USR/N0201/m_13551/dtl.jsp?lcmspage=1&id=95081804. HWP Accessed 11 July 2023. (In Korean)URL
20 
MOLIT (2021) Statistics on Building Permission and Commencement Works. Ministry of Land, Infrastructure and Transport (MOLIT). https://stat.molit.go.kr/portal/cate/statView.do?hRsId=466&hFormId=6919&hDivEng=&month_yn=. Accessed 11 July 2023. (In Korean)URL
21 
Park, J. H., Lee, J. S., Jeong, H. R., Lee, S. K., and Kim. J. H. (2024) Assessment of Internal and External Defects in Concrete Structures Using Infrared Thermography. Journal of the Korean Society of Manufacturing Process Engineers. 23(2), 8-15. (In Korean)DOI
22 
Prewitt, J. M. (1970) Object Enhancement and Extraction. Picture Processing and Psychopictorics 10(1), 15-19.URL
23 
Pugliesi, R., and Andrade, M. L. G. (1997) Study of Cracking in Concrete by Neutron Radiography. Applied Radiation and Isotopes 48(3), 339-344.DOI
24 
Sim, J., Zi, G., and Lee, J. (2008) Non-destructive Evaluation Technology Using Infrared Thermography and Near Infrared Heating for Detecting Inside-defects of Concrete Structures. KCI 2008 Spring Conference. 24-25 April 2014. Pyeongchang, Korea: Korea Concrete Institute (KCI). 1021-1024. (In Korean)URL
25 
Sobel, I. (2014) History and Definition of the Sobeloperator. Retrieved from the World Wide Web. 1505.URL
26 
Song, H., Lim, H. J., Lee, S., Sohn, H., Yun, W., and Song, E. (2015) Automated Detection and Quantification of Hidden Voids in Triplex Bonding Layers Using Active lock-in Thermography. NDT and E International 74, 94-105.DOI
27 
Tashan, J., and Al-Mahaidi, R. (2014) Detection of Cracks in Concrete Strengthened with CFRP Systems Using Infra-red Thermography. Composites Part B: Engineering 64, 116-125.DOI
28 
Weisstein, E. W. (2003) Convolution. https://mathworld.wolfram.com/. Accessed 12 July 2023.URL