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Dimension reduction for aerodynamic design optimization

Dimension reduction for aerodynamic design optimization
Dimension reduction for aerodynamic design optimization
The search for an optimal design in a high-dimensional design space of a multivariate problem requires a sample size proportional or even exponential to the number of variables of the problem. This ‘curse of dimensionality’ places a computational burden on the cost of optimization, especially when the problem uses expensive high fidelity simulations and may force one to try to reduce the dimensions of a problem. Traditional variable screening techniques reduce the dimensionality of the problem by removing variables that seem irrelevant to the design problem. This practice fails when all the variables are equally relevant in the problem or when some variables are relevant only in some parts of the design space. The present work describes a dimension reduction method called generative topographic mapping based on non-linear latent models which transform a high-dimensional data set into a low-dimensional latent space, without removing any variables. It is first illustrated on a two dimensional Branin function and then applied to a thirty-dimensional airfoil problem. The method is then compared with a global optimizer (a genetic algorithm), other dimension reduction methods (principle component analysis and Gaussian process latent variable models) and with Kriging surrogate models. The method improves when the initial sample used for dimension reduction is filtered to contain only good designs.
0001-1452
1256-1266
Viswanath, Asha
385f876f-ce34-4973-be3a-e6a0339fb48f
Forrester, Alexander I.J.
176bf191-3fc2-46b4-80e0-9d9a0cd7a572
Keane, A.J.
26d7fa33-5415-4910-89d8-fb3620413def
Viswanath, Asha
385f876f-ce34-4973-be3a-e6a0339fb48f
Forrester, Alexander I.J.
176bf191-3fc2-46b4-80e0-9d9a0cd7a572
Keane, A.J.
26d7fa33-5415-4910-89d8-fb3620413def

Viswanath, Asha, Forrester, Alexander I.J. and Keane, A.J. (2011) Dimension reduction for aerodynamic design optimization. AIAA Journal, 49 (6), 1256-1266. (doi:10.2514/1.J050717).

Record type: Article

Abstract

The search for an optimal design in a high-dimensional design space of a multivariate problem requires a sample size proportional or even exponential to the number of variables of the problem. This ‘curse of dimensionality’ places a computational burden on the cost of optimization, especially when the problem uses expensive high fidelity simulations and may force one to try to reduce the dimensions of a problem. Traditional variable screening techniques reduce the dimensionality of the problem by removing variables that seem irrelevant to the design problem. This practice fails when all the variables are equally relevant in the problem or when some variables are relevant only in some parts of the design space. The present work describes a dimension reduction method called generative topographic mapping based on non-linear latent models which transform a high-dimensional data set into a low-dimensional latent space, without removing any variables. It is first illustrated on a two dimensional Branin function and then applied to a thirty-dimensional airfoil problem. The method is then compared with a global optimizer (a genetic algorithm), other dimension reduction methods (principle component analysis and Gaussian process latent variable models) and with Kriging surrogate models. The method improves when the initial sample used for dimension reduction is filtered to contain only good designs.

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Published date: June 2011
Organisations: Computational Engineering and Design

Identifiers

Local EPrints ID: 180123
URI: http://eprints.soton.ac.uk/id/eprint/180123
DOI: doi:10.2514/1.J050717
ISSN: 0001-1452
PURE UUID: 30435314-391d-4d59-9a2a-34b0fc80c40a
ORCID for A.J. Keane: ORCID iD orcid.org/0000-0001-7993-1569

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Date deposited: 06 Apr 2011 11:35
Last modified: 15 Mar 2024 02:52

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Contributors

Author: Asha Viswanath
Author: Alexander I.J. Forrester
Author: A.J. Keane ORCID iD

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