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http://dx.doi.org/10.3744/SNAK.2018.55.2.116

A Study on GIS Information System for Shipbuilding Yard Block Logistics Simulation  

Kim, Sanghun (Dept. of Naval Architecture & Ocean Systems Engineering, Korea Maritime & Ocean University)
Lee, Yonggil (Dept. of Naval Architecture & Ocean Systems Engineering, Korea Maritime & Ocean University)
Woo, Jonghun (Dept. of Naval Architecture & Ocean Systems Engineering, Korea Maritime & Ocean University)
Lim, Hyunkyu (DSME Information & consulting Co., Ltd.)
Publication Information
Journal of the Society of Naval Architects of Korea / v.55, no.2, 2018 , pp. 116-123 More about this Journal
Abstract
These days, geographic information system has released in everyday life and industries. However, the shipyard only uses it to manage the layout of the yard. In this study, we apply the Geographic Information System to shipbuilding block logistics simulation to analyse the behavior of bogies and forklifts carrying blocks and materials in the shipyard. The shipyard manages daily block logistics plans at the execution planning stage. However, since it is a daily plan, it is difficult to respond to an unexpected situation immediately, and application to judge a certain value or higher value is insufficient. Therefore, a simulation model was created using the shape and attribute information inherent in the geographic information system to verify and improve the block logistics of the mid-and long-term yards. Through this simulation model, we will analyse loads on the workplace, stockyard, and road, and contribute to overall logistics improvement from the point of view of resource planning. In addition, the results of the simulation are reflected in the planning, to help support various decisions.
Keywords
Geographic information system; Shipyard; Block logistics; Discrete event simulation;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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1 Heo, Y.J., Cha, J.H., Jo, D.Y. & Song, H.C., 2012. Development of optimum block transportation simulation considering real-time path change of transporter. Proceedings of the Annual Spring Conference. Journal of the Society of Naval Architects of Korea, Yeosu, 31 May - 1 June 2012, pp.446-452.
2 Kim, B.S., Jeong, Y.K., Shin, J.G., Lee, J.M., Lee, P. & Lee, D.K., 2016. Improvement of process-centric modeling method and system development for ship block logistics simulation. Proceedings of the Annual Autumn Conference. The Society of Naval Architects of Korea, Changwon, 3-4 November 2016, pp.711-715.
3 Kim, Y.M., 2008. DSME in 2007. Journal of Strategic Management, 11(2), pp.107-130.   DOI
4 Lee, C.J., Shin, J.G., Lee, J.H., Woo, J.H. & Ryu, C.H., 2007. A study on discrete event simulation of shipyard outdoor block movement. Journal of the Society of Naval Architects of Korea. 44(6), pp.647-656.   DOI
5 Lim, H., Lee, P. & Woo, J., 2016. A study on the generation of the factory and road information for the block logistics simulation in shipyard based on geographic information system. Proceedings of the Annual Autumn Conference. The Society of Naval Architects of Korea, Changwon, 3-4 November 2016, pp.734-739.
6 Lee, S.H. & Lee, W.S., 2012. The current status of international geospatial standards and corresponding measures for it. Journal of the Korean Society of Civil Engineers, 60(1), pp.31-35.
7 Song, C.H. & Kang, Y.W., 2009. Simulation of block logistics at a big shipyard. The Journal of Computational Design and Engineering of Korea, 14(6), pp.374-381
8 Son, J.R., Suh, H.W. & Ha, B.H., 2014. A heuristic algorithm for block storage planning in shipbuilding. Journal of the Society of Naval Architects of Korea, 51(3), pp.239-245.   DOI