1 |
Wan, C., Zhou, Z., Li, S., Ding, Y., Xu, Z., Yang, Z., Xia, Y., Yin, F. (2019). Development of a Bridge Management System Based on the Building Information Modeling Technology. Sustainability. 11, 4583, doi:10.3390/su11174583.
DOI
|
2 |
Fedorik, F., Makkonen, T., Heikkila, R. (2016). Integration of BIM and FEA in automation of building and bridge engineering design. In Proceedings of the ISARC, Auburn, AL, USA.
|
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HM Government (2015). Digital Built Britain Level-3 Building Information Modelling - Strategic Plan, UK.
|
4 |
Lee, S.Y., Dang, N.S., Shim, C.S. (2015). Development of Creative Design and Construction Methods of Bridge Piers using 3D model, Journal of KIBIM, 5(2), pp. 12-18.
DOI
|
5 |
Deutsch, R. (2015). Data-Driven Design and Construction: 25 Strategies for Capturing, Analyzing and Applying Building Data; Wiley: Ho-boken, NJ, USA.
|
6 |
Shim, C.S., Lee, K.M., Kang, L.S., Hwang, J. and Kim, Y. (2012). Three-dimensional information model-based bridge engineering in Korea, Structural Engineering International, 22(1), pp. 8-13.
|
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British Standards Institution. (BSI) BS EN ISO 19650 :2018; British Standards Institution: London, UK, pp. 1-46.
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Kim, D.W., Chung, D.K., Shim, C.S. (2012). Development of 3D Parametric Models for Modular Bridge Substructures, Journal of KIBIM, 2(2), pp.37-45.
DOI
|
9 |
Building and Construction Authority. (2016). BIM for DfMA (Design for Manufacturing and Assembly) Essential Guide, Singapore.
|
10 |
Jeong, S., Hou, R., Lynch, J.P., Sohn, H., Law, K.H. (2017). An information modeling framework for bridge monitoring. Adv. Eng. Softw. 114, pp. 11-31.
DOI
|
11 |
Lu, R., Brilakis, I. (2019). Generating bridge geometric digital twins from point clouds. Proceedings of the 2019 European Con-ference on Computing in Construction, Crete, Greece, pp. 10-12.
|
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Nguyen D.C., Nguyen T.Q., Jin R., Jeon C.H., Shim, C.S. BIM-based mixed reality application for bridge inspection and maintenance, Construction Innovation, doi: 10.1108/CI-04-2021-0069.
DOI
|
13 |
Park, S.J., Dang, N.S., Kang, W.R., Shim, C.S. (2017). Design and Constructability Improvement of 3D Concrete Formworks through Analysis of Construction Applications. Journal of KIBIM, 7(1), pp. 1-8.
DOI
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14 |
Shim, C.S., Jeon, C.H., Kang, W.R., Dang, N.S., Lon, S. (2018). Definition of Digital Twin Models for Prediction of Future Performance of Bridges, Journal of KIBIM, 8(4), pp. 13-22.
DOI
|
15 |
Shim, C.S., Dang, N.S., Lon, S. and Jeon, C.H., (2019). Development of a b ridge maintenance system fo r prestressed concrete bridges using 3D digital twin model, Structure and Infrastructure Engineering, 15(10), pp. 1319-1332.
DOI
|
16 |
Bartholomew, M., Blasen, B., Koc, A. (2015). FHWA-HIF-16-010: Bridge Information Modeling (BrIM) Using Open Parametric Objects; U.S. Department of Transportation : Washington, DC, USA.
|
17 |
Shin, H., Lee, H., Oh, S., Chen, J. (2011). Analysis and Design of Reinforced Concrete Bridge Column Based on BIM. Procedia Eng. 14, pp. 2160-2163.
DOI
|
18 |
Shim, C.S., Chung, C.H., Kim, I.K., Kim, Y.J. (2010). Development and Application of Precast Decks for Composite Bridges, Structural Engineering International, 20(2), pp. 126-133.
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Bryden Wood Technology Limited. (2017). Data Driven Infrastructure: From Digital Tools to Manufactured Components; Digital Built Britain: Cambridge, UK.
|
20 |
Choi, J.W., Kang, J.Y., Kim, H.M. (2020). Automated Digital Engineering Modeling of Prefabricated Bridges with Parameterized Straight Alignments. Journal of KIBIM, 10(4), pp. 40-49.
DOI
|
21 |
Gaunt, M. (2017). BIM model-based design delivery: Tideway East, England, UK. Proc. Inst. Civ. Eng. Smart Infrastruct. Constr. 170, pp. 50-58.
|
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Dang, N.S., Rho, G. T., Shim, C. S. (2020). A Master Digital Model for Suspension Bridges. Appl. Sci. 10, 7666.
DOI
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23 |
Shim, C.S., Kang, H.R., Dang, N.S. and Lee, D.K., (2017), Development of BIM-based bridge maintenance system for cable-stayed bridges, Smart Structures and Systems, 20(6), pp. 697-708.
DOI
|
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Shim, C.S., Roh G.T. (2021). Data-Driven Modeling Algorithms for Cable-Stayed Bridges Considering Mechanical Behavior. Appl. Sci. 11, 2266.
DOI
|
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Won, J.B., Park, J.W., Shim, C.S., Park, M.W. (2021). Bridge-surface panoramic-image generation for automated bridge inspection using deepmatching. Structural Health Monitoring, 20(4), pp. 1689-1703.
DOI
|
26 |
Culmo M.P. Halling, M.W., Maguire, M., Mertz, D. (2017). Recommended Guidelines for Prefabricated Bridge Elements and Systems Tolerances and Recommended Guidelines for Dynamic Effects for Bridge Systems, The National Academics of Science, Engineering, Medicine. TRB. USA.
|
27 |
Dang, N.S., Shim, C.S. (2018). BIM authoring for an image-based bridge maintenance system of existing cable-supported bridges. IOP Conf. Ser. Earth Environ. Sci. 143, 012032.
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