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An exploitation-enhanced multi-objective efficient global optimization algorithm for expensive aerodynamic shape optimizations

The traditional multi-objective efficient global optimization (EGO) algorithms have been hybridized and adapted to solving the expensive aerodynamic shape optimization problems based on high-fidelity numerical simulations. Although the traditional EGO algorithms are highly efficient in solving some...

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Published in:	Proceedings of the Institution of Mechanical Engineers. Part G, Journal of aerospace engineering Journal of aerospace engineering, 2022-06, Vol.236 (7), p.1408-1421
Main Authors:	Deng, Feng, Qin, Ning
Format:	Article
Language:	English
Subjects:	Evolutionary algorithms Exploitation Global optimization Multiple objective analysis Optimization algorithms Robustness (mathematics) Shape optimization
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container_title	Proceedings of the Institution of Mechanical Engineers. Part G, Journal of aerospace engineering
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creator	Deng, Feng Qin, Ning
description	The traditional multi-objective efficient global optimization (EGO) algorithms have been hybridized and adapted to solving the expensive aerodynamic shape optimization problems based on high-fidelity numerical simulations. Although the traditional EGO algorithms are highly efficient in solving some of the optimization problems with very complex landscape, it is not preferred to solve most of the aerodynamic shape optimization problems with relatively low-degree multi-modal design spaces. A new infill criterion encouraging more local exploitation has been proposed by hybridizing two traditional multi-objective expected improvements (EIs), namely, statistical multi-objective EI and expected hypervolume improvement, in order to improve their robustness and efficiency in aerodynamic shape optimization. Different analytical test problems and aerodynamic shape optimization problems have been investigated. In comparison with traditional multi-objective EI algorithms and a standard evolutionary multi-objective optimization algorithm, the proposed method is shown to be more robust and efficient in the tests due to its hybrid characteristics, easier handling of sub-optimization problems, and enhanced exploitation capability.
doi_str_mv	10.1177/09544100211032432
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subjects	Evolutionary algorithms Exploitation Global optimization Multiple objective analysis Optimization algorithms Robustness (mathematics) Shape optimization
title	An exploitation-enhanced multi-objective efficient global optimization algorithm for expensive aerodynamic shape optimizations
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