Open AccessComparison of Evolutionary (Genetic) Algorithm and Adjoint Methods for Multi-Objective Viscous Airfoil Optimizations
Author(s) -
Thomas H. Pulliam,
Marian Nemec,
Terry L. Holst,
David W. Zingg
Publication year - 2003
Publication title -
41st aerospace sciences meeting and exhibit
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2003-298
Subject(s) - airfoil , genetic algorithm , computer science , evolutionary algorithm , algorithm , evolutionary computation , mathematical optimization , genetic programming , mathematics , artificial intelligence , physics , mechanics
A comparison between an Evolutionary Algorithm (EA) and an Adjoint-Gradient (AG) Method applied to a two-dimensional Navier-Stokes code for airfoil design is presented. Both approaches use a common function evaluation code, the steady-state explicit part of the code,ARC2D. The parameterization of the design space is a common B-spline approach for an airfoil surface, which together with a common griding approach, restricts the AG and EA to the same design space. Results are presented for a class of viscous transonic airfoils in which the optimization tradeoff between drag minimization as one objective and lift maximization as another, produces the multi-objective design space. Comparisons are made for efficiency, accuracy and design consistency.
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