Optimal shape design of a class of permanent magnet motors in a multiple-objectives context
ISSN: 0332-1649
Article publication date: 7 March 2022
Issue publication date: 3 October 2022
Abstract
Purpose
This paper aims to deal with the optimal shape design of a class of permanent magnet motors by minimizing multiple objectives according to an original interpretation of Pareto optimality. The proposed method solves a many-objective problems characterized by five objective functions and five design variables with evolution strategy algorithms, classically used for single- and multi-objective (two objective functions) optimization problems.
Design/methodology/approach
Two approaches are proposed in the paper: the All-Objectives (AO) and the Many-Objectives (MO) optimization approach. The former is based on a single-objective optimization of a preference function, i.e. a normalized weighted sum. In contrast, in the MO a multi-objective optimization algorithm is applied to the minimization of a weight-free preference function and simultaneously to a maximization of the distance of the current solution from the prototype. The optimizations are based on an equivalent circuit model of the Permanent Magnet (PM) motor, but the results are assessed by means of finite element analyses (FEAs).
Findings
An extensive study of the solutions obtained by means of the different optimization approaches is provided by means of post-processing analyses. Both the approaches find non-dominated solutions with respect to the prototype that are substantially improving the initial solution. The points of strength along with the weakness points of each solution with respect to the prototype are analysed in depth.
Practical implications
The paper gives a good guide to the designers of electric motors, focussed on a shape design optimization.
Originality/value
Considering simultaneously five objective functions in an automated optimal design procedure is challenging. The proposed approach, based on a well-known and established optimization algorithm, but exploiting a new concept of degree of conflict, can lead to new results in the field of automated optimal design in a many-objective context.
Keywords
Citation
Di Barba, P., Mognaschi, M.E., Petkovska, L. and Cvetkovski, G.V. (2022), "Optimal shape design of a class of permanent magnet motors in a multiple-objectives context", COMPEL - The international journal for computation and mathematics in electrical and electronic engineering, Vol. 41 No. 6, pp. 1994-2009. https://doi.org/10.1108/COMPEL-10-2021-0394
Publisher
:Emerald Publishing Limited
Copyright © 2022, Emerald Publishing Limited