Multiobjective optimization based on polynomial chaos expansions in the design of inductive power transfer systems - CentraleSupélec Access content directly
Journal Articles COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering Year : 2022

Multiobjective optimization based on polynomial chaos expansions in the design of inductive power transfer systems

Abstract

Purpose The purpose of this study is to decrease the computation time that the large number of simulations involved in a parametric sweep when the model is in a three-dimensional environment. Design/methodology/approach In this paper, a new methodology combining the PCE and a controlled, elitist genetic algorithm is proposed to design IPT systems. The relationship between the quantities of interest (mutual inductance and ferrite volume) and structural parameters (ferrite dimensions) is expressed by a PCE metamodel. Then, two objective functions corresponding to mutual inductance and ferrite volume are defined. These are combined together to obtain optimal parameters with a trade-off between these outputs. Findings According to the number of individuals and the generations defined in the optimization algorithm in this paper, it needs to calculate 20,000 times in a 3D environment, which is quite time-consuming. But for PCE metamodel of mutual inductance M, it requires at least 100 times of calculations. Afterward, the evaluation of M based on the PCE metamodel requires 1 or 2 s. So compared to a conventional optimization based on the 3D model, it is easier to get optimized results with this approach and it saves a lot of computation time. Originality/value The multiobjective optimization based on PCEs could be helpful to perform the optimization when considering the system in a realistic 3D environment involving many parameters with low computation time.
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Dates and versions

hal-03671861 , version 1 (30-06-2022)

Identifiers

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Yao Pei, Lionel Pichon, Mohamed Bensetti, Yann Le Bihan. Multiobjective optimization based on polynomial chaos expansions in the design of inductive power transfer systems. COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, inPress, 41 (6), pp.2045-2059. ⟨10.1108/COMPEL-10-2021-0393⟩. ⟨hal-03671861⟩
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