DOI QR코드

DOI QR Code

BIM 속성분류체계 구축을 위한 속성입력 자동화 프로그램 구현

Implementation of Property Input Automation Program for Building Information Modeling (BIM) Property Set

  • 남정용 ((주)고려소프트웨어 건설정보사업부) ;
  • 주재하 ((주)고려소프트웨어 건설정보사업부) ;
  • 김태형 ((주)고려소프트웨어 건설정보사업부)
  • 투고 : 2019.10.15
  • 심사 : 2019.11.26
  • 발행 : 2020.04.30

초록

BIM 도구는 설계프로세스에서 기술의 사용이 증가하면서 그에 따른 정보표준체계가 필요하게 되었다. 건설이 완료된 결과(Result) 분류는 25종 단위시설에 327종의 유형, 결과를 구성하는 객체는 174종의 Part와 207종의 Component로 분류하고 있다. 선행연구에서는 도로와 하천 분야 대상으로 속성분류체계를 대분류 4종, 중분류 13종, 소분류 58종, 속성정보 333종으로 분류하였고, 객체분류에 따른 대량의 속성정보를 입력하는 것의 소요 시간을 줄이는 것이 관건이었다. 따라서, Revit 플러그인과 같은 외부 응용 프로그램 개발을 통해 구체적이고 반복적인 작업에 자동화가 필요하다. BIM 속성분류체계를 따르면서 사용자의 생산성과 편의성을 강화할 수 있는 BIM 속성입력 프로그램을 구현하였다.

Building Information Modeling (BIM) tools have not only increased the use of technology in the design process, but also increased the need for more information standard systems. The object classification system consists of 327 types of construction results obtained from 25 kinds of facilities, 174 types of parts, and 207 types of construction parts. In the previous study, the property classification system was developed into 4 major classifications, 13 middle classifications, 58 small classifications (category), and 333 attribution information of roads and rivers. It is extremely difficult to input the property information according to such extensive object classification. In addition, the development of external applications such as Revit plug-ins has created a need to automate specific and repetitive tasks. Therefore, following the BIM property classification system, an attribute input program was implemented for the system to enhance the productivity and convenience of the BIM users.

키워드

참고문헌

  1. Kang, T.W., Kim, J.E., Jung, T.S. (2016) Study on 3D Reverse Engineering-based MEP Facility Management Improvement Method, J. Korea Acad.-Ind. Coop. Soc., 17(8), pp. 38-45. https://doi.org/10.5762/KAIS.2016.17.8.38
  2. Lee, E.B., Kim, D.H. (2015) A study on the Implementation Method of the Object Classification System and Property Information for Vitalizing Standardized BIM Library, J. Archit. Inst. Korea, 31(12), pp.79-90.
  3. Lee, J.M., Kim, H.S., Lee, I.S. (2018) Development of Automated 3D Modeling System to Construct BIM for Railway Bridge, J. Comput. Struct. Eng. Inst. Korea, 31(5), pp.267-274. https://doi.org/10.7734/COSEIK.2018.31.5.267
  4. Lee, S.I., Han, J.S., Jo, C.W. (2015) A Basic Study on Property Structure Standardization based on BIM Information Framework, J. Archit. Inst. Korea, 31(5), pp.77-85.
  5. Nam, J.Y., Kim M.J. (2018) Object-oriented Road Field BIM Standard Object Classification System Suggest Development Plan, J. Korea Acad.-Ind. Coop. Soc., 19(3), pp.119-129. https://doi.org/10.5762/KAIS.2018.19.3.119
  6. Nam, J.Y., Kim M.J. (2019) A Study on the Development of BIM Property Classification System in Road and River Field, J. Korea Acad.-Ind. Coop. Soc., 20(2), pp.773-784. https://doi.org/10.5762/KAIS.2019.20.2.773
  7. Shin, J.H., Choi, J.S., Kim, I.H., Yoon, D.Y. (2016) A Study on Development of Integrated Management System for BIM Property Information, J. Korea Comput. Des. & Eng., 21(2), pp.130-142. https://doi.org/10.7315/CADCAM.2016.130
  8. Yu, J.H., Chin, D.B., Kang, B.C., (2011) Proposal for Standard Parameter System of Architecture Object on Revit, Proc. Korea of Comput. Des. & Eng. Conf., Society for Computational Design and Engineering, pp.245-252.