In this article, a design methodology for complex composite aircraft structures is presented. The developed approach combines a multi-objective optimization method and a parameterized simulation model using a design concept database. Due to the combination of discrete and continuous design variables describing the structures, evolutionary algorithms are used within the presented optimization approach. The approach requires an evaluation of the design alternatives that is performed by parameterized simulation models. The variability of these models is achieved using a design concept database that contains different layouts for each implemented structural part. Due to the complexity of the generated aircraft structures, the finite element method is applied for the calculation of the structural behaviour. The applicability of the developed design approach will be demonstrated by optimizing two composite aircraft fuselage examples. The obtained results show that the developed methodology is useful and reliable for designing complex aircraft structures.
Multi-objective design of complex aircraft structures using evolutionary algorithms
Multikriterieller Entwurf von komplexen Flugzeugstrukturen unter Verwendung von evolutionären Algorithmen
2011
12 Seiten, 15 Bilder, 3 Tabellen, 27 Quellen
Article (Journal)
English
Multi-objective design of complex aircraft structures using evolutionary algorithms
Online Contents | 2011
|Multi-objective design of complex aircraft structures using evolutionary algorithms
SAGE Publications | 2011
|Multi-objective design of complex aircraft structures using evolutionary algorithms
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