Journal of KIBIM (한국BIM학회 논문집)

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

DOI QR Code

Effectiveness of a Business Model for Adopting a Construction Machine Guidance System

건설장비 가이던스 시스템 도입을 위한 비즈니스 모델 효과

  • 문성우 (부산대학교 사회환경시스템공학과)
  • Received : 2018.02.19
  • Accepted : 2018.02.20
  • Published : 2018.03.31
Download PDF
⟨ Previous Next ⟩

Abstract

A construction machine guidance system is an assistance system that helps construction equipment operators dig grounds during excavation work at a construction site. This system has long been applied in the overseas countries of the United States, Japan and Europe. However, the system has not been paid much attention in Korea. The objective of this paper is to present a business model for adopting construction machine guidance systems in Korea and evaluate the effectiveness of applying the system to excavation work. The business model in this study shows a new process of applying construction machine guidance system, business stakeholders and revenues, and suggests the benefits to the business stakeholders. A field test of the construction machine guidance system proves that the system can be applied as a tool that can improve the productivity of excavation work. This productivity improvement consequently demonstrates that the business model in this study is a prospective challenge in improving the effectiveness of excavation work at the construction site.

Keywords

References

  1. Ahmed, N., Hong, A. J., Ku, H. G., Moon, S. K., Moon, S. W. (2017). Technical Review of Automated System Application to Earthworks in Australia, Proceedings of International Symposium on Automation and Robotics 2017, Taipei, Taiwan, pp. 594-601.
  2. Ahn, S. H., Kim, S. K., Lee, G. H. (2016). Development of a Fleet Management System for Cooperation Among Construction Equipment, Journal of Korean Society of Civil Engineering, 36(3), pp. 573-586. https://doi.org/10.12652/Ksce.2016.36.3.0573
  3. Construction Specialty Newspaper. (2016). Advancement at the construction site-construction equipment Alphago (Jun. 20, 2016).
  4. Electrical News. (2016). Smart Construction Machine with Artifical Intelligence-No Time to Wait(July 7, 2016).
  5. Hong, D. S., Cho, S. N., Kim, H. G. (2013). An Analysis for Business Model and Success Factors of Smartphone Game, Journal of Korea Entertainment Industry Association, 7(4), pp. 53-61.
  6. Joasson, S., Dunston, P., Ahmed, K., Hamilton, J. (2002). Factors in Productivity and Unit Cost for Advanced Machine Guidance, Journal of Construction Engineering and Management, 128(5).
  7. Kim, S. K., Lim, S. Y., Park, J. H. (2015). A Task Planning Model for Human-Machine Cooperat ive Works in Earthwork Operations, Proceedings of Korean Society of Civil Engineers, Saemangeum, Korea.
  8. Lee, D. E., Kwok, H. S., Son, C. B. (2012). Selecting an Optimal Haul-Routes of Earthmoving Equipment, Journal of Architectural Institute of Korea, 28(12), pp. 103-110.
  9. Lee, J. H., Pyun, M. W., Koo, J. H., Park, J. S. (2010). Earthwork Plan Using the Precise 3D Topographic Data. Journal of the Korean Society for Geospatial Information Science, 18(1), pp. 63-72.
  10. Machine Guidance. (2012). Machine Guided Productivity, http://www.machineguidance.com.au/Machine-Guided-Productivity(Oct. 21, 2017).
  11. Ministry of Land, Infrastructure and Transport. (2003). Managerial Improvement for Construction Participants, Sejong-si, Korea.
  12. Ministry of Land, Infrastructure and Transport. (2017). Law on Construction Equipment Management, Sejong-si, Korea.
  13. Ministry of Land, Infrastructure and Transport. (2016). Standardized Item Cost Estimation.
  14. MK News. (2015). Japanes Government Driving Contractors to Apply Advanced Construction Technologies in Public Construction Projects(Nov. 11, 2015).
  15. Moon, S. W., Yang, B. S., Choi, E. G. (2017). Application of Machine Guidance for Better Utilization of Construction Equipments, Proceedings of Korean Society of Civil Engineers, Daegoo, Korea, pp. 1559-1560.
  16. Moon, S. W., Seo, J. W. (2017). Virtualgraphic Representation of Construction Equipment for Developing a 3D Earthwork BIM. Journal of Civil Engineering and Management, 23(8), pp. 977-984. https://doi.org/10.3846/13923730.2017.1348981
  17. Park, J. S., Seo, J. W. (2015). Application of Construction Equipment Fleet Management System through the Case Study of Air and Vessel Traffic Control Technology, Journal of Korea Society of Civil Engineers 35(2), pp. 493-500. https://doi.org/10.12652/Ksce.2015.35.2.0493
  18. Rajala, R. (2007). Determinants of Business Model Performance in Software Firms (A-357), Helsinki School of Economics, Helsinki, Finland.
  19. Woo, C. R., Cho, M. J., Choi, H. R., Lee, K. B., Kim, D. H. (2016). The Business Model for the Sharing Economy between SMEs based on Business Model Canvas, Journal of the Korea Industrial Information Systems Research, 21(5), pp. 41-54. https://doi.org/10.9723/JKSIIS.2016.21.5.041
  20. Youn, J. I., Lee, S. S., Lee, Y. H., Park, S. H., Seo, J. W. (2016). Development of Earthwork Control System for Efficient Equipment Management in Global Area, Proceedings of Korean Society of Civil Engineering, Busan, Korea, pp. 17-18.