Mobile QR Code QR CODE : Journal of the Korean Society of Civil Engineers

References

1 
British Standards Institution (BSI) (2014). BS1192-4: Collaborative Production of Information Part 4: Fulfilling employer’s information exchange requirements using COBie – Code of practice.URL
2 
Chan, B., Guan, H., Hou, L., Jo, J., Blumenstein, M. and Wang, J. (2016). “Defining a conceptual framework for the integration of modelling and advanced imaging for improving the reliability and efficiency of bridge assessments.” Journal of Civil Structural Health Monitoring, Vol. 6, No. 4, pp. 703-714.DOI
3 
Chang, H., Zhao, Y., Rao, Z. and Li, Y. (2020). “Research on intelligent operation and maintenance management of rail telescopic regulator.” In 2020 IEEE 10th International Conference on Electronics Information and Emergency Communication (ICEIEC), IEEE, Beijing, China, pp. 295-298.DOI
4 
Hosamo, H. H., Svennevig, P. R., Svidt, K., Han, D. and Nielsen, H. K. (2022). “A digital twin predictive maintenance framework of air handling units based on automatic fault detection and diagnostics.” Energy and Buildings, Vol. 261, 111988.DOI
5 
International Organization for Standardization (ISO) (2014). ISO 15686-4: Buildings and Constructed Assets - Service life planning - Part 4: Service life planning using BIM.URL
6 
Isailović, D., Stojanovic, V., Trapp, M., Richter, R., Hajdin, R. and Döllner, J. (2020). “Bridge damage: Detection, IFC-based semantic enrichment and visualization.” Automation in Construction, Vol. 112, 103088.DOI
7 
Kaewunruen, S., Sresakoolchai, J., Ma, W. and Phil-Ebosie, O. (2021). “Digital twin aided vulnerability assessment and risk- based maintenance planning of bridge infrastructures exposed to extreme conditions.” Sustainability, Vol. 13, No. 4, 2051.DOI
8 
Kim, J. S. (2020). Extract mouse click coordinate values from an image, Available at: https://gaussian37.github.io/vision-opencv- coordinate_extraction/ (Accessed: February 10, 2020) (in Korean).URL
9 
Korea Authority of Land and Infrastructure Safety (KALIS) (2021). BIM Technology application manual for structural safety maintenance of buildings (in Korean).URL
10 
Korea Infrastructure Safety and Technology Corporation (KISTEC) (2019). Guideline of safety and maintenance of facility (Safety inspection and diagnosis) (in Korean).URL
11 
Lee, J. B. (2022). IFC BIM-based optimized information model construction for damage condition assessment of cable bridges, MS. Thesis, University of Yonsei, Seoul, Korea.URL
12 
Lu, R. and Brilakis, I. (2019). “Digital twinning of existing reinforced concrete bridges from labelled point clusters.” Automation in Construction, Vol. 105, 102837.DOI
13 
Marzouk, M. and Abdelaty, A. (2012). “Maintaining subways infrastructures using BIM.” In Construction Research Congress 2012: Construction Challenges in a Flat World, West Lafayette, Indiana, United States, pp. 2320-2328.DOI
14 
McGuire, B., Atadero, R., Clevenger, C. and Ozbek, M. (2016). “Bridge information modelling for inspection and evaluation.” Journal of Bridge Engineering, Vol. 21, No. 4, 04015076.DOI
15 
Ministry of Land Infrastructure and Transport (MOLIT) (2020). Report on the status of road bridges and tunnels (in Korean).URL
16 
Ministry of Land Infrastructure and Transport (MOLIT) (2022). Implementation guidelines for BIM in construction industry (in Korean).URL
17 
Sacks, R., Kedar, A., Borrmann, A., Ma, L., Brilakis, I., Hühwohl, P., Simon, D., Uri, K., Raz, Y., Thomas, L., Burcu, E. B. and Sergej, M. (2018). “SeeBridge as next generation bridge inspection: overview, information delivery manual and model view definition.” Automation in Construction, Vol. 90, pp. 134-145.DOI
18 
Shin, S. Y., Moon, H. S. and Shin, J. Y. (2022). “BIM-Based maintenance data processing mechanism through COBie standard development for port facility.” Applied Sciences, Vol. 12, No. 3, 1304.DOI
19 
Xu, Y. and Turkan, Y. (2019). “BrIM and UAS for bridge inspections and management.” Engineering, Construction and Architectural Management, Vol. 27, No. 3, pp. 785-807.DOI