Application of BIM in the Full Cycle Metro Project

Yi Liu; Fei Min Shen; Zhen Yu Zhang

doi:10.4028/www.scientific.net/AMM.851.914

Paper Titles

Multifunctional Sofa Design Based on the Human Factors Engineering
p.888

Analysis of Safety Hazard Factors and Fuzzy Comprehensive Evaluation of Mine Main Ventilator
p.893

Research of High-Speed Rail Express Delivery Market Demand Prediction Problem in China
p.899

Collaborative Information Research on Fresh Production under Supply Chain Environment
p.904

Research on the Fashion Design of Paper Stocks Tea Gift Packaging Combined with Color Design
p.910

Application of BIM in the Full Cycle Metro Project
p.914

Design and Development of Fumigation Treatment Bed Based on Simulation Technology
p.922

Based on the People because of the Intelligent Family Combination of Integral Ambry Design
p.928

Design of Multifunctional Children Electric Vehicle Based on Human Factors Engineering
p.933

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 851Application of BIM in the Full Cycle Metro Project

Application of BIM in the Full Cycle Metro Project

Abstract:

Accidents and damages might occur due to extension of constructing time, complicated procedure and operations, and harsh circumstances brought by the traditional risk management. BIM (Building Information Modeling) appears as an integrated digital management tool, which is featured by being able to visualize, cooperate, simulate and optimize. It is a digital storage of real world building, from which the staffs, including design, building, and operation, could get the information at any time, such as graph, materials statistics, and building progressing. In this research, a full cycle of metro management, including planning, design, collision test, statistics of volume of projects, simulation of building progression, simulation of construction structure, cooperation on spot, was applied to take into consideration cause and effects that might happen in a project. Considering the main potential risks in planning period, construction period and operation period, this paper achieves analysis of capability and efficient management during various periods, via applying 3D visualizing, structure collision test, 4D model constructing, and PW information-shared platform constructing.

You might also be interested in these eBooks

Advanced Materials, Structures and Mechanical Engineering II

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 851)

Pages:

914-921

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.851.914

Citation:

Cite this paper

Online since:

August 2016

Authors:

Yi Liu, Fei Min Shen*, Zhen Yu Zhang

Keywords:

BIM, Full Cycle, Metro Project, Risk Simulation

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] S. C. Yang, Safety Risk Management System for the Construction of Urban Rail Transit Projects, J. Ei. Mod. Tunn. Technol. 163 (2000) 51-59.

Google Scholar

[2] F. Q. Bai, L. Q. Lu, X. G. Jiang, The Decision of the Reliabilities and Risks for Underground Project, J. Liaoning Tech. U. (Natural Science), 19 (2000) 237-239.

Google Scholar

[3] X. G. Wu, T. Zeng, L. M. Zhang, R. X. Song, Research on Safety Management of Adjacent Underground Pipelines in Metro Construction, J. Railway Eng. Soc. 30 (2013) 127-132.

Google Scholar

[4] G. X. Chen, H. W. Huang, J. X. You, Study on Life Cycle Risk Management of Metro, J. Chinese J. Underground Space Eng. 2 (2006) 47-51.

Google Scholar

[5] H. W. Huang, G. X. Chen, Role of Risk Management in the Cost Reduction of Metro Construction, J. Mod. Tunn. Technol. 40 (2003) 1-6.

Google Scholar

[6] H. W. Huang, Y. F. Ye, Q. F. Hu, R. X. Song, Analysis on the Current Situation of Risk Management on Metro Operation Safety, J. China Saf. Sci. J. 18 (2008) 54-62.

Google Scholar

[7] Q. H. Qian, X. L. Rong, State, Issues and Relevant Recommendations for Security Risk Management of China's Underground Engineering, J. Ei. Chinese J. Rock Mech. Eng. 27 (2008) 649-655.

Google Scholar

[8] W. G. Johnson, MORT: The Management Oversight and Risk Tree, J. Safety. Res. 29 (1975) 4-15.

Google Scholar

[9] N. Leveson, A New Accident Model for Engineering Safer Systems, J. Saf. Sci. 42 (2004) 237-270.

Google Scholar

[10] X. P Deng, Q. M. Li, Z. P. Zhou, Statistic Analysis of the Regularity for Metro Construction Accidents of Writing a Scientific Article, J. Stat. Decis. 9 (2010) 87-89.

Google Scholar

[11] G. F. Mani, A. M. Asce, P. M. Feniosky, M. Asce, S. Silvio, Automated Progress Monitoring Using Unordered Daily Construction Photographs and IFC-Based Building Information Models, J. Comput. Civ. Eng. 29 (2015).

DOI: 10.1061/(asce)cp.1943-5487.0000205

Google Scholar

[12] M. Marzouk, M. Hisham, S. Ismail, M. Youssef, O. Seif, On the use of building information modeling in infrastructure bridges, in: Proceedings of the 27th International Conference Applications of IT in the AEC Industry (CIB W78), 136, Cairo, Egypt, 2010, 1-10.

Google Scholar