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2 |
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3 |
IMO, 2002b, Interim Guidelines for Wing-In-Ground (WIG) Craft (MSC/Circ.1054)
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4 |
Kang, K.J., Shin, M.S., Kim, Y.S. and Lee, S.S., 2007, Development of 20 Passenger Class WIG Ship-Public Report Stage 1, MOERI/KORDI Research Report
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5 |
Lee, J.K., 2004, 'Risk-based Approaches to the Safety in New Ship Design,' Proc. of the fourth Conference for New Ship and Marine Technology
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6 |
Lee, S.S., Lee, J.K. and Park, B.J., 2004, 'The Safety Assessment in Ship Design,' Proceeding of the Annual Autumn Meeting, SNAK, pp. 224-229
과학기술학회마을
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7 |
Lee, S.S., Lee, J.K., Park, B.J. and Lee, D.K., 2005a, 'The Functional Hazard Assessment of WIG Craft in Conceptual Design,' Proceeding of the Annual Spring Meeting, SNAK, pp. 1439-1444
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8 |
Lee, S.S., Lee, J.K., Park, B.J. and Lee, D.K., 2005b, 'The Safety Assessment of WIG Craft using Commercial Software,' Proceeding of the Annual Autumn Meeting, SNAK, pp. 500-505
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9 |
Petersen, U. and Braasch, W., 2001, Application of Safety Assessment Process to WIG Craft
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10 |
SAE International, 1996, Guideline and Methods for Conducting the Safety Assessment Process on Civil Airborne System and Equipment
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11 |
U.S. DoD, 2000, MIL-STD-882D Standard Practice for System Safety Program Requirement
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