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http://dx.doi.org/10.13161/kibim.2021.11.2.033

A collaborative process between employers and practitioners for utilization of BIM and 3D scanning  

Kim, Do-Young (한국건설기술연구원 미래융합연구본부 건설정보지능화센터)
Publication Information
Journal of KIBIM / v.11, no.2, 2021 , pp. 33-42 More about this Journal
Abstract
In construction sites, policies are changing considering the convergence of 3D scanning and BIM. In order to respond to this, it is urgent to develop guidelines for systematic collaboration methods that take into account the perspectives of practitioners. By participating in the delivery process using 3D scanning technology, tasks such as ordering, field scanning are defined in terms of mutual communications. Also, the collaboration process is about communications between off-site and on-site, such as feed-back using data and documents. In the future, we will propose guidelines based on such collaborative process models.
Keywords
3D Scanning; Facility management; Reverse engineering; Collaborative process; BIM (Building Information Modeling);
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  • Reference
1 KICT (2015). Architectural MEP Object Reverse Engineering Technoology Development for the Facility Management, KICT 2015-180, pp. 23.
2 Alomari, K., Gambatese, J., Olsen, M. J. (2016). Role of BIM and 3D laser scanning on job sites from the perspective of construction project management personnel. Construction Research Congress, pp. 2532-2541.
3 Autodesk, https://www.autodesk.com/solutions/bim, (Mar. 7. 2020).
4 Borrmann, A., Forster, C., Liebich, T., K nig, M., Tulke, J. (2020). Germany's Governmental BIM Initiative-The BIM4INFRA2020 Project Implementing the BIM Roadmap. International Conference on Computing in Civil and Building Engineering, pp. 452-465.
5 buildingSMART Korea (2017). BIM 적용 실효성 강화 방안 및 사례 연구
6 CEN/TC 442 BIM (2020), Business plan
7 Directive 2014/24/EU, https://eur-lex.europa.eu/legalcontent/EN/TXT/?uri=celex%3A32014L0024, 2020-10-30
8 EU BIM Task Group Handbook (2017), http://www.eubim.eu/, (Oct. 30. 2020).
9 European Commission 2019, https://ec.europa.eu/eip/ageing/standards/home/bim_en.html, (Oct. 30. 2020).
10 JBTP (2019), Business announcement to support prototype production of 3D printing convergence
11 Kwon, S. W. (2015). Strategy for Applying of Reverse Engineering in Construction Industry, Magazine of KIBIM (Special Issue), 5(3), pp.14-24.
12 Lee, S. S., Kwon, S. W. (2014). A Study on Optimal Laser Scanning method for Reverse Engineering at Interior Remodeling Project, Korean Journal of Construction Engineering and Management, 15(3), pp. 1229-7534.
13 Ministry of the Interior and Safety (2017). A plan to strengthen the effectiveness of BIM application and Case studies.
14 Park, M. W. (2015), Applications of Computer Vision Technologies for Construction Management", Review of Architecture and Building Science, 60(1), pp. 31-36.
15 Travaglini, A., Radujkovic, M., Mancini, M. (2014). Building information modelling (BIM) and project management: a stakeholders perspective. Organization, technology &management in construction: an international journal, 6(2), 1001-1008.
16 Ministry of Land, Infrastructure and Transport (2020). Roadmap for revitalizing architectural BIM ('21 ~'30).
17 Park, H. J., Ryu, J. R., Woo, S. H., Choo, S. Y. (2016). An Improvement of the Building Safety Inspection Survey Method using Laser Scanner and BIM-based Reverse Engineering, Journal of the Architectural Institute of Korea, 32(12), pp. 1226-9093.
18 Graphisoft, https://graphisoft.com/solutions/workflows/open-bim, (Mar. 30. 2020).
19 KICT (2018). BIM Roadmap and Activation Strategies for Public SOC Projects, KICT 2018-029.
20 Ministry of Land, Infrastructure and Transport (2016). Enhancement and Substantiation Plan for Core Technology of Open BIM based Architectural Design
21 JBTP (2016). 3D scanner technology application and prospect (in Korean), 56, Issue&Tech.
22 VDI 2552, https://www.vdi.de/richtlinien/unsere-richtlinienhighlights/vdi-2552, (Oct. 30. 2020).