Geometric filtration using POD for aerodynamic design optimization
Geometric filtration using POD for aerodynamic design optimization
When carrying out design searches, traditional variable screening techniques can find it extremely difficult to distinguish between important and unimportant variables. This is particularly true when only a small number of simulations is combined with a parameterization which results in a large number of variables of seemingly equal importance. Here the authors present a variable reduction technique which employs proper orthogonal decomposition to filter out undesirable or badly performing geometries from an optimization process. Unlike traditional screening techniques, the presented method operates at the geometric level instead of the variable level. The filtering process uses the designs which result from a geometry parameterization instead of the variables which control the parameterization. The method is shown to perform well in the optimization of a two dimensional airfoil for the minimization of drag to lift ratio, producing designs better than those resulting from traditional kriging based surrogate model optimization and with a significant reduction in surrogate tuning cost.
kriging, optimization, POD
Toal, David J.J.
dc67543d-69d2-4f27-a469-42195fa31a68
Bressloff, Neil W.
4f531e64-dbb3-41e3-a5d3-e6a5a7a77c92
Keane, Andy J.
26d7fa33-5415-4910-89d8-fb3620413def
August 2008
Toal, David J.J.
dc67543d-69d2-4f27-a469-42195fa31a68
Bressloff, Neil W.
4f531e64-dbb3-41e3-a5d3-e6a5a7a77c92
Keane, Andy J.
26d7fa33-5415-4910-89d8-fb3620413def
Toal, David J.J., Bressloff, Neil W. and Keane, Andy J.
(2008)
Geometric filtration using POD for aerodynamic design optimization.
26th AIAA Applied Aerodynamics Conference, Honolulu, Hawaii.
18 - 21 Aug 2008.
Record type:
Conference or Workshop Item
(Paper)
Abstract
When carrying out design searches, traditional variable screening techniques can find it extremely difficult to distinguish between important and unimportant variables. This is particularly true when only a small number of simulations is combined with a parameterization which results in a large number of variables of seemingly equal importance. Here the authors present a variable reduction technique which employs proper orthogonal decomposition to filter out undesirable or badly performing geometries from an optimization process. Unlike traditional screening techniques, the presented method operates at the geometric level instead of the variable level. The filtering process uses the designs which result from a geometry parameterization instead of the variables which control the parameterization. The method is shown to perform well in the optimization of a two dimensional airfoil for the minimization of drag to lift ratio, producing designs better than those resulting from traditional kriging based surrogate model optimization and with a significant reduction in surrogate tuning cost.
Text
Toal_08a.pdf
- Author's Original
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Published date: August 2008
Venue - Dates:
26th AIAA Applied Aerodynamics Conference, Honolulu, Hawaii, 2008-08-18 - 2008-08-21
Keywords:
kriging, optimization, POD
Identifiers
Local EPrints ID: 59225
URI: http://eprints.soton.ac.uk/id/eprint/59225
PURE UUID: ee67e235-5f97-4836-b4cc-b48c93da7649
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Date deposited: 28 Aug 2008
Last modified: 16 Mar 2024 03:55
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