Evolving Parametric Aircraft Models for Design Exploration and Optimisation
Created by W.Langdon from
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- @Article{byrne:epamfdeao:2014,
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author = "Jonathan Byrne and Phillip Cardiff and
Anthony Brabazon and Michael O'Neill",
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title = "Evolving Parametric Aircraft Models for Design
Exploration and Optimisation",
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journal = "Neurocomputing",
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year = "2014",
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volume = "142",
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pages = "39--47",
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month = oct,
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keywords = "genetic algorithms, genetic programming",
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DOI = "doi:10.1016/j.neucom.2014.04.004",
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URL = "http://www.sciencedirect.com/science/article/pii/S092523121400530X",
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abstract = "Traditional CAD tools generate a static solution to a
design problem. Parametric systems allow the user to
explore many variations on that design theme. Such
systems make the computer a generative design tool and
are already used extensively as a rapid prototyping
technique in architecture and aeronautics. Combining a
design generation tool with an analysis software and an
evolutionary algorithm provides a methodology for
optimising designs. This work combines NASA's
parametric aircraft design tool (OpenVSP) with a fluid
dynamics solver (OpenFOAM) to create and analyse
aircraft. An evolutionary algorithm is then used to
generate a range of aircraft that maximise lift and
reduce drag while remaining within the framework of the
original design. Our approach allows the designer to
automatically optimise their chosen design and to
generate models with improved aerodynamic efficiency.
Different components on three aircraft models are
varied to highlight the ease and effectiveness of the
parametric model optimisation.",
- }
Genetic Programming entries for
Jonathan Byrne
Phillip Cardiff
Anthony Brabazon
Michael O'Neill
Citations