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http://dx.doi.org/10.3744/JNAOE.2010.2.2.096

An approach to computerized preliminary design procedure of mid-size superyachts from hull modeling to interior space arrangement  

Nam, Jong-Ho (College of Ocean Science and Technology, Korea Maritime University)
Kim, Dong-Ham (Wingship Technology)
Lee, Ho-Jin (College of Ocean Science and Technology, Korea Maritime University)
Publication Information
International Journal of Naval Architecture and Ocean Engineering / v.2, no.2, 2010 , pp. 96-103 More about this Journal
Abstract
A concept of preliminary design for mid-size superyachts is explored. First, the profile of a superyacht is interactively designed with the help of freeform curve functionality and graphical user interface (GUI) based interaction. The hull form is then constructed using major characteristic curves such as design waterline, deck sideline, and sections in addition to the predefined profile curve. After exterior hull modeling is done, the arrangement of significant interior spaces of all decks is carried out. A genetic algorithm is exploited to find a space arrangement by considering space fitness values, space proximity, and stairs connectivity of relevant spaces. A goal of the paper is to offer a step-by-step procedure for superyacht design from scratch or when initial information is not sufficient for complete design. For this purpose, a GUI based superyacht design system is developed. This design approach is expected to help users interactively design mid-size superyachts.
Keywords
Superyacht; CAD; Modeling; Genetic algorithm; Interior space arrangement;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
Times Cited By Web Of Science : 0  (Related Records In Web of Science)
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1 Mahfound, S., 2000. Niching Method, Evolutionary Computation 2: Advanced Algorithms and Operators. Institute of Physics Publishing, pp.87-92.
2 Nam, J-.H. and Parsons, M.G., 2000. A Parametric Approach for Initial Hull Form Modeling Using NURBS Representation, Journal of Ship Production, 16(2), pp.76-89.
3 Nam, J-.H. Hyun, B.S. Kim, T.Y. and Kim, D.H., 2007. Analysis of Hydrodynamic Performance and Establishment of Modeling Technique for Determination of Preliminary Hull Form of Superyachts. Journal of the Society of Naval Architects of Korea, 44(4), pp.451-458,   과학기술학회마을   DOI   ScienceOn
4 Piegl, L. and Tiller, W., 1995. The NURBS Book, Springer.
5 Rogers, D.F., 2001. An Introduction to NURBS with Historic Perspective, Academic Press.
6 Rhino3D, 2009. www.rhino3d.com, Version 4.0. Robert McNeel & Associates.
7 SolidThinking, 2009. www.solidthinking.com, Version 8.0, solidThinking Inc.
8 UGNX, 2008. www.plm.automation.siemens.com, Version 4.0, Siemens PLM Inc.
9 WESTPORT164., 2007. www.westportyachts.com
10 Woodward, C.D., 1988. Skinning techniques for interactive B-spline surface interpolation. Computer-Aided Design, 20(8), pp.441-451.   DOI   ScienceOn
11 Jo, J. and Gero, J., 1998. Space layout planning using an evolutionary approach, Artificial Intelligence in Engineering, 12, pp.149–162
12 Daniels, A. and Parsons, M.G., 2006. An agent based approach to space allocation in general arrangements, 9th International Marine Design Conference, Ann Arbor, Michigan, U.S.A.
13 GIBS, 2008. Genoa International Boat Show. http://www.genoaboatshow.com
14 Goldberg, D.E., 1989. Genetic Algorithms in Search, Optimization, and Machine Learning, 1st Ed, Addison-Wesley publishing, Inc.
15 Kim, J.K., 2008. Prospect of World Ocean Industry and Growth of Superyacht Market. Review of South Region Era, Research Institute for Development of Kyungnam Province, 3, pp.36-45.
16 Lee, H.S. and Byun, L.S., 2007. A Study on Space Arrangement and Interior Space Division of Superyachts, Journal of Korean Institute of Interior Design, Vol.6, No.2, pp.224-231.   과학기술학회마을
17 Lee, K.Y. Han, S.N. and Roh, M.I., 2002. Optimal Compartment Layout Design for a Naval Ship Using an Improved Genetic Algorithm, Marine Technology, 39(3), pp.159-169.