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http://dx.doi.org/10.13161/kibim.2017.7.2.008

3D Earthwork BIM Design Process for a Road Project  

Raza, Hassnain (Department of Civil and Environmental Engineering, Hanyang University)
Park, Sang-Il (Department of Civil and Environmental Engineering, Hanyang University)
Lee, Seung Soo (Department of Civil and Environmental Engineering, Hanyang University)
Tanoli, Waqas Arshad (Department of Civil and Environmental Engineering, Hanyang University)
Seo, Jongwon (Department of Civil and Environmental Engineering, Hanyang University)
Publication Information
Journal of KIBIM / v.7, no.2, 2017 , pp. 8-15 More about this Journal
Abstract
Building Information modeling is playing an important role in transforming the construction industry. It helped the industry with better visualization, minimum design errors, and excellent planning of the construction activities. Time and cost saving can be effectively achieved by using BIM for any construction project. It improves information exchange between all the project stakeholders. However, the development of earthwork 3D BIM is still underway and has not been fully implemented yet. This paper presents the study of a complete process for Earthwork BIM design using Autodesk Civil 3D. A real site road construction project is used as a case study to explain the process of earthwork modeling, starting from laser scanning to 3D model. Quantity take off calculation is very important part of any road construction project so during this study earthwork volume from two 3D earthwork model is calculated. The results obtained through this study will be the basis for future work which has been concluded in this paper.
Keywords
Earthwork; Road; 3D BIM; Quantity take off; Civil 3D;
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1 Aruga, K., Sessions, J., Akay, A. E. (2005). Application of an airborne laser scanner to forest road design with accurate earthwork volumes. Journal of Forest Research. 10(2), pp. 113-123.   DOI
2 Bonenberg, W., Wei, X. (2015). Green BIM in sustainable infrastructure. Procedia Manufacturing. 3, pp. 1654-1659.   DOI
3 Calina, A., Calina, J., Milut, M. (2015). Study on Levelling Works Made for Drawing Tridimensional Models of Surface and Calculus of the Volume of Earthwork. Agriculture and Agricultural Science Procedia, 6, pp. 413-420.   DOI
4 Cheng, J. C., Jiang, L. J. (2013). Accuracy comparison of roadway earthwork computation between 3d and 2d methods. Proceding -Social and Behavioral Sciences, 96, pp. 1277-1285.   DOI
5 Davenport, C., Voiculescu, I. (2015). Mastering AutoCAD Civil 3D 2016. Autodesk Official Press. John Wiley., Sons.
6 Easa, S. M. (2003). Estimating earthwork volumes of curved roadways: simulation model. Journal of surveying engineering, 129(1), pp. 19-27.   DOI
7 Easa, S. M., Strauss, T. R., Hassan, Y., Souleyrette, R. R. (2002). Three-dimensional transportation analysis: Planning and design. Journal of Transportation Engineering, 128(3), pp. 250-258.   DOI
8 ElNimr, A., Fagiar, M., Mohamed, Y. (2016). Two-way integration of 3D visualization and discrete event simulation for modeling mobile crane movement under dynamically changing site layout. Automation in Construction, 68, pp. 235-248.   DOI
9 Hare, W. L., Koch, V. R., Lucet, Y. (2011). Models and algorithms to improve earthwork operations in road design using mixed integer linear programming. European Journal of Operational Research, 215(2), pp. 470-480.   DOI
10 Hiremagalur, J., Yen, K. S., Akin, K., Bui, T., Lasky, T. A., Ravani, B. (2007). Creating standards and specifications for the use of laser scanning in caltransprojects. AHMCT Rept.# UCD-ARR-07-06-30-01, Davis.
11 Holland, L., Mercier, K. (2012). Mastering AutoCAD Civil 3D 2013. Autodesk Official Press. John Wiley., Sons.
12 Jaselskis, Edward J., ZhiliGao, and Russell C. Walters. (2005). Improving transportation projects using laser scanning. Journal of Construction Engineering and Management, 131(3), pp.377-384.   DOI
13 Jha, M. K., Schonfeld, P. (2004). A highway alignment optimization model using geographic information systems. Transportation Research Part A: Policy and Practice, 38(6), pp. 455-481.   DOI
14 Kim, H., Orr, K., Shen, Z., Moon, H., Ju, K., Choi, W. (2014). Highway alignment construction comparison using objectoriented 3D visualization modeling. Journal of Construction Engineering and Management, 140(10).
15 Rebolj, D., Tibaut, A., Cus-Babic, N., Magdic, A., Podbreznik, P. (2008). Development and application of a road product model. Automation in construction, 17(6), pp. 719-728.   DOI
16 Michael J., Mawdesley William H., Askew Saad H., Al-Jibouri. (2004). Site layout for earthworks in road projects, Engineering. Construction and Architectural Management, 11(2), pp. 83-89.   DOI
17 Nassar, K., Aly, E. A., JUNG, Y. (2011). Structure-frommotion for earthwork planning. Proc. 28th ISARC, pp. 310-316.
18 Randall, T. (2011). Construction engineering requirements for integrating laser scanning technology and building information modeling. Journal of construction engineering and management, 137(10), pp.797-805.   DOI
19 Slattery, K. T., Slattery, D. K. (2013). Modeling earth surfaces for highway earthwork computation using terrestrial laser scanning. International Journal of Construction Education and Research, 9(2) pp. 132-146.   DOI
20 Slattery, K. T., Slattery, D. K., Peterson, J. P. (2011). Road construction earthwork volume calculation using threedimensional laser scanning. Journal of surveying engineering. 138(2) pp. 96-99.   DOI
21 Tang, P., Huber, D., Akinci, B., Lipman, R., Lytle, A. (2010). Automatic reconstruction of as-built building information models from laser-scanned point clouds: A review of related techniques. Automation in construction, 19(7), pp. 829-843.   DOI
22 Turk, G., Levoy, M. (1994). Zippered polygon meshes from range images. In Proceedings of the 21st annual conference on Computer graphics and interactive techniques, pp. 311-318.
23 Uddin, W. (2008). Airborne laser terrain mapping for expediting highway projects: Evaluation of accuracy and cost. Journal of Construction Engineering and Management, 134(6), pp. 411-420.   DOI
24 Smith, S.D., Wood, G.S. and Gould, M., (2000). A new earthworks estimating methodology. Construction Management., Economics, 18(2), pp.219-228.   DOI