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A Shipyard Simulation System using the Process-centric Simulation Modeling Methodology: Case Study of the Simulation Model for the Shipyard Master Plan Validation
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 Title & Authors
A Shipyard Simulation System using the Process-centric Simulation Modeling Methodology: Case Study of the Simulation Model for the Shipyard Master Plan Validation
Jeong, Yong-Kuk; Woo, Jong-Hun; Oh, Dae-Kyun; Shin, Jong-Gye;
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Shipbuilding process takes a long time for producing final products, and needs many different resources. Because of these characteristics, it has been studied about shipyard simulation and virtual manufacturing that is able to implement the virtual manufacturing process. However, among the previous researches, it requires considerable time and effort to construct simulation model since the systematic methodology has not been used for simulation modeling. Also, reusability of constructed simulation model was low. Therefore, this research defines the method to construct shipyard simulation system using the process-centric simulation modeling methodology and shipyard simulation framework. This paper also validates the utility of this methodology through applying to construct simulation model for the shipyard master plan validation.
Digital shipyard;Discrete event system simulation;Process-centric simulation modeling;Shipyard master plan;Virtual manufacturing;
 Cited by
Lu, R.F. and Sundaram, S., 2002, Manufacturing Process Modeling of Boeing 747 Moving Line Concepts, Proceedings of the 2002 Winter Simulation Conference, pp.1041-1045.

Butterfield, J., Crosby, S., Curran, R., Price, M., Armstrong, C.G., Raghunathan, S., McAleenan, D. and Gibson, C., 2007, Optimization of Aircraft Fuselage Assembly Process Using Digital Manufacturing, Journal of Computing and Information Science in Engineering, 7(3), pp.269-275. crossref(new window)

Jeong, Y., Yim, H., Jee, H. and Lee, K., 2008, Manufacturing Line Optimization for Discrete Event Simulation and Genetic Algorithm, Transactions of the Society of CAD/CAM Engineers, 13(1), pp.67-75.

Song, Y.J., Lee, D.K., Choe, S.W., Woo, J.H. and Shin, J.G., 2009, A Simulation-Based Capacity Analysis of a Block-Assembly Process in Ship Production Planning, Journal of the Society of Naval Architects of Korea, 46(1), pp.78-86. crossref(new window)

Hwang, I.H., Noh, J., Lee, K.K. and Shin, J., 2010, Short-term Scheduling Optimization for Subassembly Line in Ship Production Using Simulated Annealing, Journal of the Korea Society for Simulation, 19(1), pp.73-82.

Song, J.K., 2013, Process Modeling Methodology for Shipyard Production Simulation, Master's Degree Thesis, Seoul National University.

Lee, D.K., Kim, Y., Hwang, I.H., Oh, D.K. and Shin, J.G., 2014, Study on a Process-centric Modeling Methodology for Virtual Manufacturing of Ships and Offshore Structures in Shipyards, The International Journal of Advanced Manufacturing Technology, 71(1-4), pp.621-633. crossref(new window)

Woo, J.H. and Song, Y.J., 2014, Systematisation of Ship Production Management and Case Study for Ship Block Assembly Factory. International Journal of Computer Integrated Manufacturing, 27(4), pp.333-347. crossref(new window)

Hopp, W.J. and Spearman, M.L., 2008, Factory physics 3rd Edition. McGraw-Hill.

Lee, P., Lee, D.K., Back, M.G., Shin, J.G. and Choi, Y.R., 2012, An Implementation of the Unit Model for Manufacturing Simulation of Shipyard Assembly Shop, Proceedings of the Society of CAD/CAM Engineers Conference, pp.352-356.

Woo, J.H., 2005, Modeling and Simulation of Indoor Shop System of Shipbuilding by Integration of the Product, Process, Resource and Schedule Information, Ph.D. Thesis, Seoul National University.

Lee, D.K., 2013, Study on the PPR3-S Information-based Neutral Model and System for Integration and Extension of Shipbuilding Production Planning Simulations, Ph.D. Thesis, Seoul National University.