국제초고층학회논문집 (International Journal of High-Rise Buildings)

  • 제11권2호
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  • Pages.125-135
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  • 2022
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  • 2234-7224(pISSN)
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  • 2288-9930(eISSN)
한국초고층도시건축학회 (Council on Tall Building and Urban Habitat Korea)
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Lifting Load Recording and Management Method of the Lift for Construction Based Sensing Information

  • Taekyu Ko (Department of Convergence Engineering for Future City, Sungkyunkwan University) ;
  • Joonghwan Shin (Department of Smart Factory Solution, LG CNS) ;
  • Kyuhyup Lee (Department of Convergence Engineering for Future City, Sungkyunkwan University) ;
  • Soonwook Kwon (School of Civil, Architectural Engineering & Landscape Architecture, Sungkyunkwan University) ;
  • Chung-Suk Cho (Department of Civil, Infrastructure and Environmental Engineering, Khalifa University) ;
  • Suwan Chung (Department of Future & Smart Construction Research, KICT) ;
  • Goeun ,Choi (Department of Global Smart City Researcher, Sungkyunkwan University)
  • 발행 : 2022.06.01
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초록

While buildings in recent days become taller and larger, many problems occur during the management of construction. Particularly, as the vertical movement of manpower and materials during construction has become longer while the lifting frequency and load increase, the need for a good lifting management practice is also increasing. Therefore, this study presents a real-time lifting performance monitoring system that can store and manage lifting records for construction management. Through review of literature and preceding studies related to construction lift, the concept of lift planning and operation management was understood, leading to the development of a system to monitor lifting operation and performance information. This system enabled quick measurement of the lifting performance during construction phase while responding to changes in the project schedule. To verify this system, a case study was conducted in which the current status and characteristics of the sensing-based lifting performance were derived.

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참고문헌

  1. Au-Yong, C. P., Azmi, N. F., and Mahassan, N. A. (2018). Maintenance of lift systems affecting resident satisfaction in low-cost high-rise residential buildings. Journal of Facilities Management, 16(1), 17-25 https://doi.org/10.1108/JFM-04-2017-0015
  2. Belmonte, M. and Trabucco, D. (2021). "The Ropeless Elevator: New Transportation System for High-rise Buildings (and Beyond). International Journal of High-Rise Buildings, 10(1), 55-62
  3. Cho, C. Y., Kwon, S. W., Shin, T. H. et al. (2011), A development of next generation intelligent liftcar toolkit for vertical material movement. Automation in Construction, 20(1), 14-27 https://doi.org/10.1016/j.autcon.2010.07.008
  4. Cho, C. Y., Shin, Y. S., Won, S. K. et al. (2011). An Algorithm for Hoisting Time Calculation in Super-tall Building Construction. Korean Journal of Construction Engineering and Management, 12(6), 120-129 https://doi.org/10.6106/KJCEM.2011.12.6.120
  5. Cho, C. Y., Cho, M. Y., Shin, Y. S. et al. (2012). Prediction Model for Hoisting Times of Tower Crane using DiscreteEvent Simulation in High-rise Building Construction. Journal of the Architectural Institute of Korea, 28(1), 151-158
  6. Ha, S. B., Park, M. S., Lee, H. S. et al. (2010). An Efficient Lifting Operation using Vertical Zoning of Temporary Lift-Car in the High-Rise Building Construction. The Architectural Institute of Korea, 30(1), 325-326
  7. Hwang, D. W., Kwon, O. K., and Choi, Y. K. (2017). Lifting Work Process Optimization Method in High-rise Building Construction Through Improvement of CYCLONE Modeling Method. Korean Journal of Construction Engineering and Management, 18(2), 58-70. https://doi.org/10.6106/KJCEM.2017.18.2.058
  8. Kim, N. G. and Kim, Y. S. (2013). An Analysis of the Critical Risk Factors in Failure Cases of Lifting Equipment Plans in High-rise Construction Project. Korean Journal of Construction Engineering and Management, 14(4), 73-83 https://doi.org/10.6106/KJCEM.2013.14.4.073
  9. Kwon, W. B., Lee, D. M., Cho, H. H. et al. (2019). Application of Deep Learning for Automated Operation of Construction Lift in High-rise Building Construction. Journal of the Architectural Institute of Korea, 39(1), 412-413
  10. Lan, C. and Cheuk, M. M. (2021). Integrated impacts of building height and upstream building on pedestrian comfort around ideal lift-up buildings in a weak wind environment. Building and Environment, 200, 107963
  11. Lee, M. D., Won, M. K., Lee, U. K. el al. (2014). Integrated lifting model of planning and operation for finishing materials in building construction. Journal of the Architectural Institute of Korea Structure & Construction, 30(5), 125-133 https://doi.org/10.5659/JAIK_SC.2014.30.5.125
  12. Moon, J. Y., Park, M. S., Lee, H. S. et al. (2014). Study on Optimization for Construction Vertical Lifting with Transfer Operation for Super High-rise Buildings. Korean Journal of Construction Engineering and Management, 15(6), 53-62 https://doi.org/10.6106/KJCEM.2014.15.6.053
  13. Shin, Y. S. (2011). Interactive lift operation planning system for finishing work in tall building construction. Korea University Doctoral thesis
  14. Soh, J. Y., Bae, J. H., Han, C. H. et al. (2015). A Study on Optimal Inspection Interval for the Major Components of Construction Lift. Korean Journal of Construction Engineering and Management, 16(3), 68-77 https://doi.org/10.6106/KJCEM.2015.16.3.068
  15. Won (2011). Interactive Decision-making Model of Lift Operation Planning in Tall Building Projects. Kyung Hee University Doctral thesis
  16. Zhang, P., Harris, F. C., Olomolaiye, P. O. et al. (2011). Location optimization for a group of tower cranes. Journal of construction Engineering and Management, 125(2), 115-122
  17. Zhiqian, Z. and Wei, P. (2020). Lift planning and optimization in construction: A thirty-year review. Automation in Construction, 118, 103271