Browse > Article
http://dx.doi.org/10.7734/COSEIK.2017.30.3.223

Development of Virtual Construction Equipment Simulation System Based on BIM for Civil Engineering Project  

Kim, Sung-Hoon (Taesung SNI)
Yoon, Young-Cheol (Department of Civil Engineering, Myongji College)
Joo, Cheol-Beom (Taesung SNI)
Yoon, Dong-Ju (Taesung SNI)
Publication Information
Journal of the Computational Structural Engineering Institute of Korea / v.30, no.3, 2017 , pp. 223-230 More about this Journal
Abstract
BIM(building information modeling) has been actively applied to construction industries and to maximize its application through the life cycle of structure, various relevant technologies have been proposed. In particular, 4D sequencing management and 5D cost-related management were introduced as an improved version of the design review and interface control by 3D information design. On the other hand, the virtual construction using virtual construction equipment can sophisticatedly handle capacity, dynamic movement, collision boundaries of actual construction machines but it still stays at a low level in a technical sense. In this study, simulation systems based on BIM involving virtual construction equipment have been developed; then it is applied to the actual construction project to evaluate the safety and efficiency of construction equipments. It was confirmed that the simulation systems can be utilized to construct virtual construction site by using an effective 3D library of construction equipment and can plays a key role to secure construction safety and economic feasibility. Specifically, the simulation system are very useful for decision making by construction managers to select the optimum equipment and construction method with a better understanding for safety and cost-saving.
Keywords
BIM; infrastructure; virtual construction; virtual construction equipment; simulation system;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
연도 인용수 순위
1 Sampaio, A.Z., Martins, O.P. (2014) The Application of Virtual Reality Technology in the Construction of Bridge : The Cantilever and Incremental Launching Methods. Autom. Constr., 37, pp.58-67.   DOI
2 Tantisevi, K., Akinci, B. (2007) Automated Generation of Workspace Requirements of Mobile Crane Operation to Support Conflict Detection, Autom. Constr., 16(3), pp.262-276.   DOI
3 Hung, W.-H., Liu, C.-W., Liang, C.-J. Kang, S.-C. (2016) Strategies to Accelerate the Computation of Erection Path for Construction Cranes, Autom. Constr., 62, pp.1-13.   DOI
4 Wu, Y., Kim, H., Kim, C., Han, S. (2010) Object Recognition in Construction-Site Images Using 3D CAD-Based Filtering J. Comput. Civil Eng., pp.56-64.
5 Park, C.-S., Kim, H.-J. (2013) A Framework for Construction Safety Management and Visualization System, Autom. Constr., 33, pp.95-103.   DOI
6 Demag (2016) AC 250-5 - All Terrain Crane 250T Capacity Class Brochure, Demag.
7 Ding, L., Zhou, Y., Akinci, G. (2014) Building Information Modeling (BIM) Application Framework: The Process of Expanding from 3D to Computable nD, Autom. Constr., 46, pp.82-93.
8 AlBahnassi, H., Hammad, A. (2012) Near Real-Time Motion Planning and Simulation of Cranes in Construction: Framework and System Architecture, J. Comput. Civ. Eng., 26, pp.54-63.   DOI
9 Jeon, H.W., Jung, I.S., Lee, C.S. (2013) Risk Assessment for Reduction Safety Accident caused by Construction Machinery, J. Korean Soc. Saf., 28(6), pp.64-72.   DOI
10 Kim, S.H., Lee, S.H., Nam, S.H., Sun, O.Y. (2011) A Study on the Construction Management Method based on BIM for Civil Engineering Project, J. Comput. Struct. Eng. Inst. Korea, 24(4), pp.463-469.
11 Kim, H.S., Moon, H.S., Choi, G.Y., Kim, C.H., Kang, L.S. (2012) Development of BIM Functions and System for Constrcution Project Through Project Life Cycle - Focusing on Bridge Construction Project, Korean J. Constr. Eng. & Manag., 13(2), pp.11-24.   DOI
12 Ministry of Employment and Labor (2016) The Analysis of Industrial Accident.
13 Moon, H., Dawood, N., Kang, L. (2014) Development of Workspace Conflict Visualization System using 4D Object of Work Schedule, Adv. Eng. Inform., 28, pp.50-65.   DOI