Robust design optimization using the price of robustness, robust least squares and regularization methods

Bukhari, Hassan J.

doi:10.1051/smdo/2017007

Int. J. Simul. Multidisci. Des. Optim.

2017

DOI: 10.1051/smdo/2017007

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Robust design optimization using the price of robustness, robust least squares and regularization methods

Hassan J. Bukhari¹

Abstract: Abstract. In this paper a framework for robust optimization of mechanical design problems and process systems that have parametric uncertainty is presented using three different approaches. Robust optimization problems are formulated so that the optimal solution is robust which means it is minimally sensitive to any perturbations in parameters. The first method uses the price of robustness approach which assumes the uncertain parameters to be symmetric and bounded. The robustness for the design can be controll… Show more

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2019

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A Robust Design Optimization Method Considering Correlated Intervals

Wang

2019

Int. J. Comput. Methods

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In the robust design, correlations of uncertain parameters exist widely and have an influence on the results in most cases. It is essential to develop a robust design optimization method considering parametric correlation to future improve the analysis accuracy and engineering applicability. In this paper, a robust design optimization method based on multidimensional parallelepiped convex model is presented. Considering the effects of the interval uncertainties and their correlations, a robust design optimization model considering correlated intervals is established. In the established model, the average performance and robustness of the system response of concern are taken as the design optimization objectives, and the correlations among interval parameters are quantified by integrating the multidimensional parallelepiped convex model. And then, through an independence transforming procedure it can be converted into an independent interval model, which is ultimately converted into a deterministic multi-objective optimization model by using the interval possibility degree to cope with the uncertain constraints. Finally, the deterministic multi-objective optimization model is treated by coupling an efficient micro multi-objective genetic algorithm with the first order Taylor expansion. The feasibility and practicability of the proposed method are demonstrated by the numerical and engineering examples.

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A Robust Design Optimization Method Considering Correlated Intervals

Wang

2019

Int. J. Comput. Methods

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Robust design optimization using the price of robustness, robust least squares and regularization methods

Cited by 1 publication

References 22 publications

A Robust Design Optimization Method Considering Correlated Intervals

A Robust Design Optimization Method Considering Correlated Intervals

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