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References

1 
FHWA (1995) Recording and Coding Guide for the Structure Inventory and Appraisal of the Nation’s Bridges (FHWA PD-96-001). Washington, D. C.: Federal Highway Administration (FHWA).URL
2 
Johnston, D., and Zia, P. (1984) Level-of-Service System for Bridge Evaluation. Transportation Research Record.URL
3 
JSCE (2007) Standard Specifications for Concrete Structures. JSCE Guidelines for Maintenance and Performance Assessments. Tokyo, Japan: Japan Society of Civil Engineers (JS CE).URL
4 
JSCE (2009) Standard Specifications for Steel and Composite Structures. JSCE Guidelines for Maintenance and Performance Assessments. Tokyo, Japan: Japan Society of Civil Engineers (JSCE).URL
5 
KATS (2022) Road Marking Materials (KS M 6080). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)URL
6 
Kim, J. H., Kim, S. I., and Kim, K. H. (2017) Estimation of Fatigure Life at Asphalt Concrete Using Adaptive FE Meshes. Journal of the Korea Concrete Institute 29(5), 465-470. (In Korean)URL
7 
Kim, S. J., and Yoon, M. O. (2018) A Study on the Improvement Program of Bridge Safety Management Through Public-Private Governance. Journal of the Korean Society of Hazard Migration 18(1), 145-156. (In Korean)DOI
8 
KNPA (2022) Traffic Road Marking Installation・Maintenance Guidelines. Seoul, Korea: Korean National Police Agency (KNPA). (In Korean)URL
9 
KoRoad (2023) 3 out of 10 Elderly Drivers are considering Returning Their Driver’s Licenses due to Anxiety about Traffic Accidents. [Press release]. https://www.koroad.or.kr/main/board/6/89084/board_view.do Accessed 04 October 2023.URL
10 
Lee, J. H., Choi, S. K., Lee, H. W., Lee, J. H., and Park, Y. C. (2014) Design and Maintenance About the Bridge Drainage. Magazine of the Korean Society of Steel Construction 26(4), 26-34. (In Korean)URL
11 
Lee, M. H., Choi, K. C., and Oh, I. S. (2015) Analysis of Traffic Accident Reduction Performance of High-quality and Long- life Pavement Marking Materials. Korean Society of Civil Engineers 35(4), 921-99. (In Korean)DOI
12 
Lee, M. S., Kim, J. S., and Yoo, I. G. (2021) Analysis of Interception Capability of the Bridge Linear Drainage System. The Society of Convergence Knowledge Transactions 9(2), 25-37. (In Korean)DOI
13 
Lim, C. S., Kim, D. J, Hwang, K. R., Shin, B. K., Park, K. S., Oh, H. S., and Lee, S. W. (2021) A Study on Improvement Strategies for Infrastructure Safety Management Systems against Climate Change. Jinju: Korea Authority of Land & Infrastructure Safety (KALIS), Seoul: Korea Institute for Structural Maintenance and Inspection (KSMI) (In Korean)URL
14 
MOLIT (2019) Guidelines for Maintenance and Performance Assessments. Sejong, Korea: Ministry of Land, Infrastructure and Transport (MOLIT). (In Korean)URL
15 
MOLIT (2023) Bridge and Tunnel Information System. https://bti.kict.re.kr/ Accessed 19 June 2023.URL
16 
Oh, S. H., Park, J. I., and Yoon, T. K. (2017) A Study on the Smart Transportation Infrastructure Policy to Respond to of the Age of an Autonomous Vehicle. Sejong, Korea: Korea Research Institute for Human Settlements (KRIHS). (In Korean)URL
17 
Park, J. J., Lee, C. Y., Lee, C. G., and Seo, I. K. (2014) A Study on the Application of Luminescent Lanes of Expressway. Korea Expressway Corporation Research Institute (KECRI). (In Korean)URL
18 
Park, W. I., Kim, Y. S., Park, K. S., and Lee, S. K. (2021) Visibility Evaluation of Luminescent Lane in case of Adverse Weather at Nighttime. Journal of the Korea Academia-Industrial Cooperation Society 22(12), 859-867. (In Korean)DOI
19 
Park, Y. S. (2023) The Current Status and Future Outlook of Aging Road Bridges. Construction & Economy Research Institute of Korea. http://www.cerik.re.kr/report/highlight/detail/2734. Accessed 29 September 2023. (In Korean)URL
20 
TAAS (2023) https://taas.koroad.or.kr/web/bdm/srs/selectStaticalReportsList.do?menuId=WEB_KMP_IDA_SRS_TAA. Traffic Accident Analysis System (TAAS). Accessed 16 October 2023. (In Korean)URL