Overview of BIM application for bridge - highway and infrastructure projects in Viet Nam

  • Ngo Thanh Thuy

    Campus in Ho Chi Minh City, University of Transport and Communications, No. 450-451 Le Van Viet Street, Tang Nhon Phu A Ward, District 9, Ho Chi Minh City, Vietnam
  • Do Minh Truyen

    V7 Engineering And Technology Company Limited CO.LTD, No 448/5E Le Van Viet Street, Tang Nhon Phu A Ward, District 9, Ho Chi Minh City, Vietnam
  • Huynh Xuan Tin

    Campus in Ho Chi Minh City, University of Transport and Communications, No. 450-451 Le Van Viet Street, Tang Nhon Phu A Ward, District 9, Ho Chi Minh City, Vietnam
Email: dominhtruyen10497@gmail.com
Từ khóa: Building Information Modeling (BIM), bridge design, BIM for infrastructure (InfraBIM), project life cycle, level of development (LOD)

Tóm tắt

In recent years, the industrial revolution 4.0 has been strongly happening and affecting many industries and fields thanks to the rapid development of science and technology. Many new technologies have been developed and applied in the construction industry, increasing labor productivity and work efficiency, and reducing construction waste. One of these new technologies is Building Information Modeling (BIM), which is being strongly developed and evaluated as a key technology for the construction industry. BIM defines all property information related to a full lifecycle of a target structure, from planning and design to construction, operation, and maintenance. In Vietnam, BIM has been effective for certified projects using state budget, private capital, or foreign investment, and gradually there is a positive change. The goal of this paper is to provide a comprehensive, up to date literature review, analysis of research areas regarding BIM for bridge, highway, infrastructure, and some applications in this domain in Vietnam

Tài liệu tham khảo

[1]. E. Charles et al., An Outline of the Building Descripition System, Institute of Physical Planning, Carnegie-Mellon University, (1974). https://files.eric.ed.gov/fulltext/ED113833.pdf
[2]. G.A, Van Nederveen, F.P. Tolman, Modeling multiple views on building, Automation in construction, 1 (1992) 215-224. http://dx.doi.org/10.1016/0926-5805(92)90014-B
[3]. National Institule of Building Sciences (NIBS), About the National BIM Standard United States, (2016). https://www.nationalbimstandard.org/about
[4]. Adam Strafaci, What does BIM mean for civil engineers? Road and highway projects can benefit from design using building information modeling, CE NEWS, 10 (2008).
[5]. T. H. Mai et al., Summary of experience in applying BIM in the world and current situation of BIM application in the construction industry in Vietnam, Journal of Construction Economics, 02 (2014) (in Vietnamese). http://dept.utc2.edu.vn/khoacongtrinh/Tin-cong-nghe/tong-hop-kinh-nghiem-ap-dung-bim-tren-the-gioi-va-hien-trang-ap-dung-bim-trong-nganh-xay-dung-viet-nam-40.html
[6]. QĐ 1057/QĐ-BXD, Temporary guidance for Building Information Modeling (BIM) application in pilot phase. (in Vietnamese)
[7]. QĐ 2500/QĐ-TTg, Decision approving the project of Building Information Modeling (BIM) application in construction activities and construction operation management, by Vietnamese gorverment. (in Vietnamese)
[8]. S.S. Chen, A.M. Shirole, Integration of information and automation technologies in bridge engineering and management: extending state of the art, J. Transp. Res. Board, 1976 (2006) 2-12. https://doi.org/10.1177/0361198106197600101
[9]. M. Mawlana, F. Vahdatikhaki, A. Doriani, A. Hammad, Integrating 4D modeling and discrete event simulation for phasing evaluation of elevated urban highway reconstruction projects, Autom. Constr, 60 (2015) 25-38. https://doi.org/10.1016/j.autcon.2015.09.005
[10]. M. Marzouk, M. Hisham, Implementing earned value management using bridge information modeling, KSCE Journal of Civil Engineering, 18 (2014) 1302–1313. https://doi.org/10.1007/s12205-014-0455-9
[11]. A.Z. Sampaio, Geometric modeling of box girder deck for integrated bridge graphical system, Automation in Construction, 12 (2003) 55–66. https://doi.org/10.1016/S0926-5805(02)00040-7
[12]. Karaman S. Gokhan, Stuart S. Chen, Benny J. Ratnagaran, Three-dimensional parametric data exchange for curved steel bridges, J. Transp. Res. Board, 2331 (2013) 27–34. https://doi.org/10.3141/2331-03
[13]. N. Okasha, D. Frangopol, Computational platform for the integrated life-cycle management of highway bridges, Eng. Struct, 33 (2011) 2145–2153. https://doi.org/10.1016/j.engstruct.2011.03.005
[14]. M. Marzouk, M. Hisham, A hybrid model for selecting location of mobile cranes in bridge construction projects, The Baltic Journal of Road and Bridge Engineering, 8 (2011) 184-189. https://doi.org/10.3846/bjrbe.2013.23
[15]. H. Lee, M. Lee, I. Lee, S. Nam, A study on the development of 3D parametric model for reinforced concrete bridge piers, Proc. in International Conference on Civil and Building Engineering Informatics (ICCBEI), (2017) 102–105. https://www.dropbox.com/s/jo05jlqh2y7v1of/proceedings%20of%20ICCBEI_CCACHE%202017.pdf?dl=0
[16]. C.S. Shim, N.R. Yun, H.H. Song, Application of 3D bridge information modeling to design and construction of bridges, Procedia Eng, 14 (2011) 95–99. https://doi.org/10.1016/j.proeng.2011.07.010
[17]. C. Koch, S.G. Paal, A. Rashidi, Z. Zhu, M. Konig, I. Brilakis, Achievements and challenges in machine vision-based inspection of large concrete structures, Advances in Structural Engineering, 17 (2014) 303–318. https://doi.org/10.1260/1369-4332.17.3.303
[18]. P. Hüthwohl, R. Lu, I. Brilakis, Challenges of bridge maintenance inspection, Proc. in International Conference on Computing in Civil and Building Engineering (ICCCBE), (2016) 51–58. http://www.see.eng.osaka-u.ac.jp/seeit/icccbe2016/Proceedings/Full_Papers/006-215.pdf
[19]. G.D. Reeder, G.A. Nelson, 3D engineered models for highway construction: the Iowa experience, Rep. No. RB33-014, Iowa Department of Transportation, (2015). https://lib.dr.iastate.edu/intrans_reports/130
[20]. B. Sankaran, J. France-Mensah, W. O'Brien, Data integration challenges for CIM in large infrastructure: a case study of Dallas Horseshoe Project, Proc. In International Conference on Computing in Civil and Building Engineering (ICCCBE), (2016) 1015–1022.
http://www.see.eng.osaka-u.ac.jp/seeit/icccbe2016/Proceedings/Full_Papers/128-075.pdf
[21]. S.M. Vick, I. Brilakis, A review of linear transportation construction progress monitoring techniques, Proc. in International Conference on Computing in Civil and Building Engineering (ICCCBE), (2016) 1106–1113. http://www.see.eng.osaka-u.ac.jp/seeit/icccbe2016/Proceedings/Full_Papers/140-375.pdf
[22]. B. Riverio, M.J. Dejong, B. Conde, Automated processing of large point clouds for structural health monitoring of masonry arch bridges, Automation in Construction, 72 (2016) 258–268. https://doi.org/10.1016/j.autcon.2016.02.009
[23]. N. P. Thien, T. Q. Huy, BIM story in Vietnam and experience from UK, Architectural magazine, 05 (2017). (in Vietnamese) https://www.tapchikientruc.com.vn/chuyen-muc/cau-chuyen-bim-o-viet-nam-va-kinh-nghiem-tu-anh-quoc.html.
[24]. H. X. Tin et al., Research on modeling of bridge construction information for the structural design step of overpass bridge at intersection 550 - Binh Duong, Proceedings of UTC scientific research of the year 2018 – 2019, 2019.
[25]. FHWA-HIF-16-011, Bridge Information Modeling Standardization Volume I: Information Exchange, U.S Department of Transportation Federal Highway Administration, 2016. https://www.fhwa.dot.gov/bridge/pubs/hif16011/hif16011b.pdf
[26]. P. T. Huan, N. D. Tien, Applying construction information modeling in bridge project implementation, Transporation journal, (2016) 5 pages.
[27]. Autodesk, BIM for Infrastructure: A vehicle for business transformation, Autodesk (2012). https://www.my-morpheus.com/UserFiles/file/bim-vehicle-for-business-transformation-whitepaper-en.pdf
[28]. M. Breunig, A. Borrmann, E. Rank, S. Hinz, T. Kolbe, M. Schilcher, Collaborative multi-scale 3D city and infrastructure modeling and simulation, Proc. in The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XLII-4/W4 (2017) 341–352. https://doi.org/10.5194/isprs-archives-XLII-4-W4-341-2017
[29]. S.A. Jones, D. Laquidara-Carr, The business value of BIM for infrastructure, SmartMarket report, Rep. to Dodge Data & Analytics, Balford, MA, 2017. http://images.autodesk.com/adsk/files/business_value_of_bim_for_infrastructure_smartmarket_report__2012.pdf
[30]. T. Kageyama, Preliminary verification of the effects of introduction of CIM in the detailed design phase of bridge, Proc. in International Conference on Computing in Civil and Building Engineering (ICCCBE), (2016) 1031–1037. http://www.see.eng.osaka-u.ac.jp/seeit/icccbe2016/Proceedings/Full_Papers/130-174.pdf
[31]. H.T. Abdelwahab, Intelligent design (4D, 5D and beyond) for road design and construction projects: Two case studies, International Road Federation (IRF) Examiner, 12 (2017) 21–25. https://www.irf.global/ebooks/IRF-Examiner-17Vol12.pdf
[32]. P. Pakkala, J. Myllymaa, J. Sireeni, Benefits of virtual design and construction in civil engineering in the Nordics, International Road Federation (IRF) Examiner, 12 (2017) 27–31.
https://www.irf.global/ebooks/IRF-Examiner-17Vol12.pdf
[33]. H.M. Shin, H.M. Lee, S.J. Oh, J.H. Chen, Analysis and design of reinforced concrete bridge column based on BIM, Procedia Eng, 14 (2011) 2160–2163, https://doi.org/10.1016/j.proeng.2011.07.271
[34]. A. Borrmann, Y. Ji, J. Jubierre, M. Flurl, Procedural modeling: A new approach to multi-scale design in infrastructure projects, Proc. in EG-ICE Workshop on Intelligent Computing in Civil Engineering, Herrsching, Germany, (2012) 1–10. http://www.cie.bv.tum.de/publications/proceedings/20120704_Borrmann_et_al_EGICE.pdf
[35]. Y. Ji, A. Borrmann, J. Beetz, M. Obergrieβer, Exchange of parametric bridge models using a neutral data format, Journal of Computing in Civil Engineering, 27 (2013) 593–606. https://doi.org/10.1061/(ASCE)CP.1943-5487.0000286
[36]. W. Liu, H. Guo, H. Li, Y. Li, Using BIM to improve the design and construction of bridge projects: a case study of a long-span steel-box arch bridge project, Int. J. Adv. Robot. Syst, 11 (2014) 1–11. https://doi.org/10.5772/58442
[37]. M. Marzouk, M. Hisham, S. Ismail, M. Youssef, O. Seif, On the use of building information modeling in infrastructure bridges, Proc. in 27th International Conference Applications of IT in the AEC Industry (CIB W78), (2010) 1–10. http://itc.scix.net/cgi-bin/works/Show?w78-2010-135
[38]. N. Ali, S. Chen, R. Srikonda, H. Hu, Development of concrete bridge data schema for interoperability, Transportation Research Record: Journal of the Transportation Research Board, 2406 (2014) 87–97. https://doi.org/10.3141/2406-10
[39]. Y. Sugita, T. Kawaguchi, K. Hatanaka, H. Shimbo, M. Yamamura, Y. Kobayashi, Y. Fujisawa, I. Kobayashi, N. Yabuki, Development of a design support system for geological disposal using a CIM concept, Proc. in International Conference on Computing in Civil and Building Engineering (ICCCBE), (2016) 1173–1182. http://www.see.eng.osaka-u.ac.jp/seeit/icccbe2016/Proceedings/Full_Papers/148-365.pdf
[40]. L.R. Tawelian, S.B. Mickovski, The implementation of geotechnical data into the BIM process, Procedia Eng, 143 (2016) 734–741. https://doi.org/10.1016/j.proeng.2016.06.115
[41]. S. Vilgertshofer, A. Borrmann, Using graph rewriting methods for the semi automatic generation of parametric infrastructure models, Adv. Eng. Inform, 33 (2017) 502–515. https://doi.org/10.1016/j.aei.2017.07.003
[42]. A. Jootoo, D. Lattanzi, A machine learning based approach to bridge design prototyping, Proc. in International Conference on Computing in Civil and Building Engineering (ICCCBE), (2016) 1846–1852. https://doi.org/DS31_1568FPA
[43]. J. Bien, Modelling of structure geometry in bridge management systems, Arch. Civil Mech. Eng, 11 (2011) 519–532. https://doi.org/10.1016/S1644-9665(12)60099-5
[44]. H. Li, N. Chan, T. Huang, M. Skitmore, J. Yang, Virtual prototyping for planning bridge construction, Autom. Constr, 27 (2012) 1–10. https://doi.org/10.1016/j.autcon.2012.04.009
[45]. S.F. Huang, C.H. Chen, R.J. Dzeng, Design of track alignment using building information modeling, J. Transp. Eng, 137 (2011) 823–830. https://doi.org/10.1061/(ASCE)TE.1943-5436.0000287
[46]. N. Kodama, R. Fujita, Study of standard of LOD/LOI toward implementing CIM in Japan, Proc. in International Conference on Civil and Building Engineering Informatics (ICCBEI), (2017) 106–109. https://www.dropbox.com/s/jo05jlqh2y7v1of/proceedings%20of%20ICCBEI_CCACHE
%202017.pdf?dl=0
[47]. A. Hammad, C. Zhang, Y. Hu, E. Mozaffari, Mobile model-based bridge lifecycle management system, Comput. Aided Civ. Inf. Eng, 21 (2006) 530–547. https://doi.org/10.1111/j.1467-8667.2006.00456.x
[48]. B. Fanning, C.M. Clevenger, M.E. Ozbek, H. Mahmoud, Implementing BIM on infrastructure: comparison of two bridge construction projects, Pract. Period. Struct. Des. Constr, 20 (2014) 1-8. https://doi.org/10.1061/(ASCE)SC.1943-5576.0000239
[49]. K.M. Lee, Y.B. Lee, C.S. Shim, K.L. Park, Bridge information models for construction of a concrete box-girder bridge, Structure and Infrastructure Engineering, 8 (2012) 687-703. https://doi.org/10.1080/15732471003727977
[50]. M. Marzouk, M. Hisham, S. Ismail, M. Youssef, O. Seif, On the use of building information modeling in infrastructure bridges, Proc. in 27th International Conference Applications of IT in the AEC Industry (CIB W78), (2010) 1–10. http://itc.scix.net/cgi-bin/works/Show?w78-2010-135
[51]. S.M. Vick, I. Brilakis, A review of linear transportation construction progress monitoring techniques, Proc. in International Conference on Computing in Civil and Building Engineering (ICCCBE), (2016) 1106-1113. http://www.see.eng.osaka-u.ac.jp/seeit/icccbe2016/Proceedings/Full_Papers/140-375.pdf
[52]. H. Hu, S.S. Chen, R. Srikonda, N. Ali, Development of alignment-based parametric data exchange schema for bridge geometry, J. Transp. Res. Board, 2460 (2014) 22–30. https://doi.org/10.3141/2460-03
[53]. M. Elnabwy, M. Kaloop, E. Elbeltagi, Talkha steel highway bridge monitoring and movement identification using RTK-GPS technique, Measurement, 46 (2013) 4282-4292. https://doi.org/10.1016/j.measurement.2013.08.014
[54]. L. H. Nam et al., BIM for technical infrastructure projects in Vietnam: Current status, application barriers and solutions, Journal of construction science and technology, 12 (2018) 53-59. (in Vietnamese)
[55]. Chien K.F, Wu Z.H, Huang S.C, Identifying and assessing critical risk factors for BIM projects: Empirical study, Automation in Construction, (45) (2014) 1-5. https://doi.org/10.1016/j.autcon.2014.04.012
[56]. Aladag H, Demirdogenm G, Isik Z, Building Information Modeling (BIM) Use in Turkish Construction Industry, Procedia Engineering, 161 (2016) 174-179. https://doi.org/10.1016/j.proeng.2016.08.520
[57]. Ku, K, Taiebat M, BIM Experiences and Expectations: The Constructors' Perspective, International Journal of Construction Education and Research, 7 (2011) 175-197. https://doi.org/10.1080/15578771.2010.544155
[58]. Volk R, Stengel J, Scotsman F, Building Information Models (BIM) for existing buildings-literature review and future needs, Automation in Construction, 38 (2014) 109-127. https://doi.org/10.1016/j.autcon.2013.10.023
[59]. Jones S.A, Laquidara-Carr D, The Business Value of BIM for Infrastructure 2017, in SmartMarket Report, Dodge Data & Analytics, 2017. https://www.construction.com/toolkit/reports/the-business-value-of-BIM-for-infrastructure-2017
[60]. N. T. Thuy et al., BIM application for Thu Thiem 2 Bridge in construction engineering design phase, International conference on Application of Artificial Intelligence in Transportation, (2020).
[61]. H. X. Tin et al., 550 – Binh Duong overpass using Building Information Modeling, International conference on Application of Artificial Intelligence in Transportation, (2020).

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