2017
DOI: 10.1177/1475090217708478
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Hydro-aerodynamic mathematical model and multi-objective optimization of wing-in-ground effect craft in take-off

Abstract: Hydro-aerodynamic mathematical model and multi-objective optimization of a popular wing-in-ground effect craft are presented in this research using a hydro-aerodynamic practical method and the genetic algorithm. The primary components of the wing-in-ground effect craft configuration include a compound wing, catamaran hull form and a poweraugmented ram platform. The hydro-aerodynamic practical method with low computational time and high accuracy is performed by coupling hydrodynamic and aerodynamic consideratio… Show more

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Cited by 3 publications
(1 citation statement)
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“…We examined a set number of solutions and interpolated them. The research by [50] develops a solution approach and multi-objective optimization for a WIG take-off case, including a catamaran hull and compound wing. Such an approach offers improved accuracy for this critical design case.…”
Section: Future Iterationsmentioning
confidence: 99%
“…We examined a set number of solutions and interpolated them. The research by [50] develops a solution approach and multi-objective optimization for a WIG take-off case, including a catamaran hull and compound wing. Such an approach offers improved accuracy for this critical design case.…”
Section: Future Iterationsmentioning
confidence: 99%