Journal of KIBIM (한국BIM학회 논문집)

Korean Institute of Building Information Modeling (한국BIM학회)
권호 표지
DOI QR코드

DOI QR Code

Apartment house project cost schedule for integrated management BIM-based BoQ application plan

공동주택 프로젝트 비용일정통합 관리를 위한 BIM 기반 BoQ 구축 및 활용 방안

  • 정련의 (한양대학교 건축공학과) ;
  • 김웅기 (한양대학교 건축환경공학과) ;
  • 함남혁 (한양사이버대학교 건축도시건설공학부) ;
  • 김재준 (한양대학교 건축공학부)
  • Received : 2021.04.01
  • Accepted : 2021.04.01
  • Published : 2021.06.30
Download PDF
⟨ Previous Next ⟩

Abstract

Since entering the 21st century, the construction industry has developed faster and faster, and more and more technologies have been applied in the construction industry. BIM technology (Building Information Modeling) was born in this environment. The application of BIM technology can greatly improve the efficiency of cost management and help achieve the goal of cost management. But through BIM to realize project cost management, there is still no good solution. In order to solve this problem, this paper puts forward the concept of WBS structure applied to construction projects by studying the BoQ (Bill of Quantities) list based on BIM, and proposes the numbering method of the structure. The WBS (Work Breakdown Structure) structure proposed in this paper divides more than 5000 cost objects into 133 projects according to the type of work and project schedule. This structure helps to realize the application of BIM in project cost management. Although this article has studied more than 5000 data of three projects, it does not think that it can cover all cost objects in the existing construction industry. The purpose of this article is to propose a solution for cost and Process Control using BIM-based BoQ data.

Keywords

References

  1. An, J. W., Yun, S. H. (2017). Improvement of BoQ Documents for the BIM based Quantity Takeoff, Journal of KIBIM, 7(2), pp. 16-24. https://doi.org/10.13161/kibim.2017.7.2.016
  2. Brotherton, S. A., Fried, R. T., Norman, E. S. (2008). Applying the work breakdown structure to the project management lifecycle. Paper presented at the PMI Global Congress Proceedings.
  3. Choi, H. J., Yun, S. H. (2019). Improvement of Quantity Take-Off and BoQ through the LOD Criteria Analysis of BIM Models, Korea Journal of Construction Engineering and Management, 20(6), pp. 89-97.
  4. Cho, Y. S., Suh, B. G., Yun, S. H. (2015). Development of BIM Based Estimation Prototype System Using Building Elements Combination Database, Journal of the Architectural Institute of Korea Structure & Construction, 31(3), pp. 45-52. https://doi.org/10.5659/JAIK_SC.2015.31.3.45
  5. Devi, T. R., Reddy, V. S., J. I. J,. E. R. A. (2012). Work breakdown structure of the project. 2(2), pp. 683-686.
  6. Designing Buildings Ltd., (2020). Bill of quantities BOQ, Designing Buildings Wiki, Share your construction industry knowledge, https://www.designingbuildings.co.uk/wiki/Bill_of_quantiti es_BOQ
  7. Ezcan, V., Isikdag, U., Goulding, J. (2013). BIM and offsite manufacturing: recent research and opportunities. Paper presented at the 19th CIB World Building Congress Brisbane, Australia.
  8. Fan, S. L., Wu, C. H., Hun, C. C. J. J. O. A. S., Engineering. (2015). Integration of cost and schedule using BIM. 18(3), pp. 223-232.
  9. Grytting, I., Svalestuen, F., Lohne, J., Sommerseth, H., Augdal, S., Ladre, O. J. P. E. (2017). Use of LoD decision plan in BIM-projects. 196, pp. 407-414.
  10. Gledson, B. J., Greenwood, D. J. E., Construction, Management, A. (2017). The adoption of 4D BIM in the UK construction industry: an innovation diffusion approach.
  11. Han, K. K., Golparvar-Fard, M. J. A. I. C. (2015). Appearance-based material classification for monitoring of operation-level construction progress using 4D BIM and site photologs. 53, pp. 44-57.
  12. Halpin, D. W. (2006) Construction Management. 3rd ed. NJ: John Wiley Sons.
  13. Howard, R., Bj rk, B. C. (2008). Building information modeling - experts' view on standardization and indust ry deve lopment. Advanced Engineering Informatics, 22(2), pp. 271-280. https://doi.org/10.1016/j.aei.2007.03.001
  14. Jin, Z., Gambatese, J., Liu, D., Dharmapalan, V. J. E., Construction, Management, A. (2019). Using 4D BIM to assess construction risks during the design phase.
  15. Jo, Y. H., Yun, S. H. (2019). A Study on the Simplification of Quantity Calculation of Reinforcing Bar, Journal of Korea Institute of Building Construction, 19(6), pp. 521-527. https://doi.org/10.5345/JKIBC.2019.19.6.521
  16. Kim, I. H., Um, S. G., Choi, J. S. (2015). A Basic Study on an Application of Quantity Take-Off Requirements for Open BIM-based Schematic Estimation of Architectural Work, Korean Journal of Computational Design and Engineering, 20(2), pp. 182-192. https://doi.org/10.7315/CADCAM.2015.182
  17. Kim, Y. J., Kim, S. A., Chin, S. Y. (2012). A Study of BIM based estimation Modeling data reliability improvement, Korea Journal of Construction Engineering and Management, 13(3), pp. 43-55. https://doi.org/10.6106/KJCEM.2012.13.3.043
  18. Kim, J. U., Shin, T. S. (2018). Integrated Management of Process Schedule and Quantity Take-Off for Steel Structures using BIM Information, Journal of KIBIM, 8(2), pp. 10-18. https://doi.org/10.13161/KIBIM.2018.8.2.010
  19. Koh, S. H., Ham, N. H., Lee, J. S., Yoon, S. W., Kim, J. J. J. J. O. K. (2017). Comparison Analysis of BIM Level in the Domestic and Overseas BIM Projects-Focused on BIM Journals and Award Winning Projects. 7(2), pp. 25-35.
  20. Lee, H. C, Kim, J. M., Choi, C. H., Song, S. H. (2017). BIM-based cost estimation by integration with BIM mdel data and cost information- Case Study on Economy Evaluation of Apartment in Sejong Special Self-Governing city -, Journal of KIBIM, 7(3), pp. 11-20. https://doi.org/10.13161/kibim.2017.011
  21. Lee, J. C. (2019). A Study on the Effective Calculation of Rebar QTO in the Early Design Phase through the Application of BIM Model, Journal of the Architectural Institute of Korea Structure Construction, 35(5), pp. 145-152. https://doi.org/10.5659/JAIK_SC.2019.35.5.145
  22. Lee, S. K., Kim, K. R., Yu, J. H. J. A. i. c. (2014). BIM and ontology-based approach for building cost estimation. 41, pp. 96-105.
  23. Lee, X. S., Tsong, C. W., Khamidi, M. F. (2016). 5D Building information modelling-a practicability review. Paper presented at the MATEC Web of Conferences.
  24. Liu, H., Lu, M., Al-Hussein, M. (2014). BIM-based integrated framework for detailed cost estimation and schedule planning of construction projects. Paper presented at the ISARC. Proceedings of the International Symposium on Automation and Robotics in Construction.
  25. Lu, M., Hasan, T., Hasan, M. COMPARATIVE STUDY OF UNIFORMAT AND MASTERFORMAT FOR CONSTRUCTION COST ESTIMATING.
  26. Lu, W., Lai, C. C., Tse, T. (2018). BIM and Big Data for Construction Cost Management: Routledge.
  27. Lu, Q., Won, J., Cheng, J. C. J. I. J. o. P. M. (2016). A financial decision making framework for construction projects based on 5D Building Information Modeling (BIM). 34(1), pp. 3-21.
  28. Marzouk, M., Enaba, M. (2019). Analyzing project data in BIM with descriptive analytics to improve project performance. Built Environment Project and Asset Management.
  29. Moon, H. J., Choi, M. S., Kim, S. K., Ryu, S. H. (2011). Case studies for the evaluation of interoperability between a BIM based architectural model and building performance analysis programs. Paper presented at the Proceedings of 12th conference of international building performance simulation association.
  30. Mayouf, M., Gerges, M., Cox, S. J. J. o. E., Design, Technology. (2019). 5D BIM: an investigation into the integration of quantity surveyors within the BIM process.
  31. Meredith, J. R., Mantel, S. (2012). Project Management, Hoboken. In: NJ, USA: Wiley.
  32. Malacarne, G., Toller, G., MARCHER, C., Riedl, M., Matt, D. T. J. I. J. o. S. D., Planning. (2018). Investigating benefits and criticisms of BIM for construction scheduling in SMEs: an Italian case study. 13(1), pp. 139-150.
  33. Nadeem, A., Wong, A. K., Wong, F. K. J. A. J. f. S., Engineering. (2015). Bill of quantities with 3D views using building information modeling. 40(9), pp. 2465-2477.
  34. Oh, K.S., Park, S. H., Song, J. W. (2016). A Study on the Using of BIM Data and Template for Construction Progress Management, Journal of the Korea Academia-Industrial cooperation Society, 17(8), pp. 157-163.
  35. Plebankiewicz, E., Zima, K., Skibniewski, M. J. P. E. (2015). Analysis of the first Polish BIM-Based cost estimation application. 123, pp. 405-414.
  36. Sattineni, A., Bradford, R. H. J. P. o. t. t. I., Seoul, Korea. (2011). Estimating with BIM: A survey of US construction companies. pp. 564, 569.
  37. Sattineni, A., Macdonald, J. A. (2014). 5D-BIM: A case study of an implementation strategy in the construction industy. Paper presented at the ISARC. Proceedings of the International Symposium on Automation and Robotics in Construction.
  38. Siami-Irdemoosa, E., Dindarloo, S. R., Sharifzadeh, M. J. A. i. C. (2015). Work breakdown structure (WBS) development for underground construction. 58, pp. 85-94.
  39. Supriadi, L., Wisesatama, B., Latief, Y. (2018). Development of work breakdown structure (WBS) dictionary for road construction works. Paper presented at the IOP Conference Series: Earth and Environmental Science.
  40. Sulankivi, K., Makela, T., Kiviniemi, M. (2009). BIM-based site layout and safety planning. Paper presented at the Proceedings of the First International Conference on Improving Construction and Use through Integrated Design Solutions.
  41. Stanley, R., Thurnell, D. (2014). The benefits of, and barriers to, implementation of 5D BIM for quantity surveying in New Zealand.
  42. Staub-French, S., Fischer, M., Kunz, J., and Paulson, B. (2003). An ontology for relating features with activities to calculate costs. Journal of Computing in Civil Engineering, 17(4), pp. 243-254. https://doi.org/10.1061/(ASCE)0887-3801(2003)17:4(243)
  43. Wu, S., Wood, G., Ginige, K., Jong, S. W. J. J. o. I. T. i. C. (2014). A technical review of BIM based cost estimating in UK quantity surveying practice, standards and tools. 19, pp. 534-562.
  44. Zima, K. J. P. e. (2017). Impact of information included in the BIM on preparation of Bill of Quantities. 208, pp. 203-210.
  45. Zecheru, V., Olaru, B. G. J. R. o. I. C. M. R. d. M. C. I. (2016). Work Breakdown Structure (WBS) in Project Management. 17(1).
  46. 안지원, 학회논문집, 윤. J. 한. B. (2017). BIM 기반 물량 및 내역정보 생성을 위한 내역서 개선방안. 7(2), pp. 16-24. https://doi.org/10.13161/kibim.2017.7.2.016
  47. 최현준, 한국건설관리학회논문집, 윤. J. (2019). BIM 모델표현 수준 (LOD) 분석을 통한 내역체계 개선방안 연구. 20(6), pp. 89-97. https://doi.org/10.6106/kjcem.2019.20.6.089