한국BIM학회 논문집 (Journal of KIBIM)

  • 제8권4호
  • /
  • Pages.49-59
  • /
  • 2018
  • /
  • 2288-1697(pISSN)
  • /
  • 2288-1697(eISSN)
한국BIM학회 (Korean Institute of Building Information Modeling)
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항만시설의 생애주기 업무 지원을 위한 BIM 표준 프레임워크 구축

A Standardized BIM Framework for Supporting Life-cycle Business Process for Port & Harbour Facilities

  • 문현석 (한국건설기술연구원 미래융합연구본부 건설자동화연구센터) ;
  • 원지선 (한국건설기술연구원 미래융합연구본부 건설자동화연구센터) ;
  • 신재영 (한국건설기술연구원 미래융합연구본부 건설자동화연구센터)
  • 투고 : 2018.12.15
  • 심사 : 2018.12.17
  • 발행 : 2018.12.31
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초록

Recently, the application of BIM for port & harbour facilities has been increasing, as it is widely applied to the infrastructure field both at domestic and abroad. However, the port and harbour projects still have very poor facilities information management system and the application level of BIM is very low compared to other facilities. Even if BIM is applied for those project, it is very difficult to determine in advance what information is needed without an accurate understanding of the business process. The purpose of this study is to develop a BIM framework for port & harbour facilities and to examine its applicability. To do this, we structured the classification of the port & harbour facilities and constructed object-based classification system based on ISO12006-3 standard. We also derived the BIM framework requirements from the viewpoint of process, standard, interface, and information, and confirmed the linkage of the BIM object classification system in the framework item. The applicability of the BIM framework for inspection process cases of port & harbour was examined. Accordingly, this study can solve requirement setting method, which is the non - procedural and non - systematic project information, in the BIM application process of the port & harbour project with the BIM framework. In addition, the framework is expected to be integrated into the system to play a key role in the selection of project objectives, and the ability to clearly identify the information requirements required by the BIM manager to perform the project.

키워드

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Figure 1. Development directions of port BIM framework by analyzing existing BIM framework in domestic and overseas

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Figure 2. ISO12006-3 schema structure for defining object-based classification

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Figure 3. Hierarchical structure and combination concept for port BIM OBS (Object Breakdown Structure)

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Figure 4. OBS combination example for caisson facility

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Figure 5. Example of OBS code for caisson facility

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Figure 6. BIM framework composition concept for port facility

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Figure 7. Derivation of core framework element for port BIM

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Figure 8. Common BIM framework model for port BIM

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Figure 9. Utilization review for maintenance inspection in port BIM framework

Table 1. Code system for port BIM OBS

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Table 2. Framework element definition

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참고문헌

  1. Autodesk (2012). Revit Architecture, http://www.autodesk.com
  2. BRE (2018). TEMLATER delivered by bre/ code by active plan, http://www.bretemplater.com
  3. ISO (2007). ISO 12006-3, Building construction-Organization of information about construction works-Part3: Framework for object-oriented information
  4. ISO (2015). ISO 12006-2, Building construction-Organization of information about construction works-Part2: Framework for classification
  5. Jo, C. W. (2012). A Study on Developing Standard Framework for Implementing Open BIM-A Proposal for Developing Practical BIM Standard in Korea-, Architecture Engineering Kyunhee University, Ph.D Dissertation
  6. Jung, Y. S., Kim, Y. S., Kim, M., Ju, T. H. (2013). Concept and Structure of Parametric Object Breakdown Structure (OBS) for Practical BIM, Journal Korea Institute of Construction Engineering and Management, 15(3), pp. 88-94.
  7. KS (2011). KS F ISO 12006-3, Building construction-Organization of information about construction works-Part3: Framework for object-oriented information, http://www.kats.go.kr
  8. Ministry of Land, Infrastructure and Transport (2009). Integrated Construction Information Breakdown Structure.
  9. Moon, H. S., Ju, K. B. (2014). Development of BIM Library for Civil Structures based on Standardized Drawings-Focused on 2D Standard Drawings of The MOLIT, Transaction of the Society of CAD/CAM Engineers, 19(1), pp. 80-90.
  10. Nam, J. Y., Jo, C. W., Park, S. H. (2017). A Study on Applying Information Framework for BIM Based WBS - Focusing on Civil Construction -, Korea Academia-Industrial cooperation Society, 18(11), pp. 770-777.
  11. NATSPEC (2011). NATSPEC BIM Object-Element Matrix V1.0, https://bim.natspec.org/documents/natspec-national-bim-guide
  12. NBS (2015). BIM LEVEL 2, http://bim-level2.org/en/standard,
  13. Succar, B. (2009). Building information modelling framework: a research and delivery foundation for industry stakeholders, Automation in Construction, 18(3), pp. 357-375. https://doi.org/10.1016/j.autcon.2008.10.003

피인용 문헌

  1. 항만 BIM 데이터의 상호운용성 확보를 위한 IFC 표준 개발 vol.10, pp.1, 2018, https://doi.org/10.13161/kibim.2020.10.1.008
  2. BaaS(BIM as a Service)를 위한 분산 클라우드 기반의 BIM 플랫폼 리소스 관리 방법 연구 vol.10, pp.3, 2018, https://doi.org/10.13161/kibim.2020.10.3.043