Cho, S. J., Yi, J. H., Lee, C. G., and Yun, C. B. (2007), Evaluation of Load Carrying Capacity of Bridges Using Ambient Vibration Tests, Journal of the Korean Society of Civil Engineers, Korean Society of Civil Engineers, 27(1A), 79-89.

Gordan, M., Sabbagh-Yazdi, S. R., Ismail, Z., Ghaedi, K., Carroll, P., McCrum, D., and Samali, B. (2022), State-of-the-art review on advancements of data mining in structural health monitoring, Measurement, Elsevier, 193, 110939.

Heo, G. H., Lee, W. S., Lee, C. O., Jeon, J. R., and Sohn, D. J. (2011), Development of smart wireless measurement system for monitoring of bridges, Journal of the Korea Institute for Structural Maintenance and Inspection, The Korea institute for Structural Maintenance Inspection, 15(2), 170-178 (in Korean).

Ho, D. D., Lee, P. Y., Nguyen, K. D., Hong, D. S., Lee, S. Y., Kim, J. T., Shim, S.W., Yun, C.-B., and Shinozuka, M. (2012), Solar- powered multi-scale sensor node on lmote 2 platform for hybrid SHM in cable-stayed bridge, Smart Structures and Systems, International Association of Structural Engineering And Mechanics, 9(2), 145-164.

Jang, S., Jo, H., Cho, S., Mechitov, K., Rice, J. A., Sim, S. H. Jung, H.-J., Yun, C.-B., Spencer, B. F., and Agha, G. (2010), Structural health monitoring of a cable-stayed bridge using smart sensor technology: deployment and evaluation, Smart Structures and Systems, International Association of Structural Engineering and Mechanics, 6(5-6), 439-459.

Kim, G. S., and Yu, D. U. (2016), Introduction of Long Span Bridge Management Center, Journal of Disaster Prevention, Korea Disaster Prevention Association, 18(1), 63-75 (in Korean).

Kwon, T. H., Park, S. H., Park, S. I., and Lee, S. H. (2021), Building information modeling-based bridge health monitoring for anomaly detection under complex loading conditions using artificial neural networks, Journal of Civil Structural Health Monitoring, Springer, 11, 1301-1319.

Kyung, K. S., Lee, Y. I., Lee, H. H., and Park, Y. J. (1998), A Study on Maintenance of Deteriorated Bridge By Long-Term Displacement Monitoring. Journal of the Korea Institute for Structural Maintenance and Inspection, The Korea institute for Structural Maintenance Inspection, 2(3), 194-204 (in Korean).

Ministry of Land, Infrastructure and Transport (MOLIT) (1995), Special act on the safety control and maintenance of establishments.

Ministry of Land, Infrastructure and Transport (MOLIT) (2022), Yearbook of road bridge and tunnel statistics (in Korean).

Ni, Y. Q., Hua, X. G., Wong, K. Y., and Ko, J. M. (2007), Assessment of bridge expansion joints using long-term displacement and temperature measurement, Journal of Performance of Constructed Facilities, ASCE, 21(2), 143-151.

Park, J. O., Park, S. H., An, S. J., Park, W. J., and Kim, J. H. (2019), A Study on the Application of Bridge Maintenance System using LoRa LPWAN Wireless Communication, Journal of the Korea Institute for Structural Maintenance and Inspection, The Korea institute for Structural Maintenance Inspection, 23(1), 138-146 (in Korean).

Park, J. W., Chae, M. J., Lee, G., and Cho, M. Y. (2012), Test-bed Development for Long-term Monitoring of Small Bridge Asset Management, Korean Journal of Construction Engineering and Management, The Korea institute for Structural Maintenance Inspection, 13(6), 13-23 (in Korean).

Seoul Metropolitan Government (2011), Hangang bridge on-line safety monitoring system, http://hbsafety25.eseoul.go.kr (accessed on 10 May 2023).

Wong, K. Y., Lau, C. K., and Flint, A. R. (2000), Planning and implementation of the structural health monitoring system for cable-supported bridges in Hong Kong. Nondestructive Evaluation of Highways, Utilities, and Pipelines IV, United States, 3995, 266-275.