The paper outlines an approach to multidisciplinary ship design via a software platform maintaining a holistic view on the overall ship quality. The platform integrates design and first-principles design evaluation tools that estimate performance indices of risk, costs, earnings and ship functionality. The platform has built-in mechanisms that determine dominant design parameters, derive parametric models and perform gradual optimisation of constantly updated response surfaces, thus guiding designers towards cost-effective design solutions. The applications aspects and results of the platform are also presented here.
Design for Safety with Minimum Life-Cycle Cost
Fluid Mechanics, Appl.
17.05.2011
17 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
Design to Cost and Life Cycle Cost
NTIS | 1981
|Selecting the Correct Hydraulic Component Material for Minimum Life Cycle Cost
SAE Technical Papers | 1992
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