Ant colony optimization for the topological design of interior permanent magnet (IPM) machines
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Lucas S. Batista [1] ; Felipe Campelo [1] ; Frederico G. Guimaraes [1] ; Jaime A. Ramírez [1] ; Min Li [2] ; David A. Lowther [2]
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[1] Universidade Federal de Minas Gerais
Universidade Federal de Minas Gerais
Brasil
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[2] McGill University
McGill University
Canadá
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- Localización: Compel: International journal for computation and mathematics in electrical and electronic engineering, ISSN 0332-1649, Vol. 33, Nº 3 (Special Issue: OIPE 2012), 2014, págs. 927-940
- Idioma: inglés
- Enlaces
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Resumen
Purpose – The purpose of this paper is to apply an Ant colony optimization approach for the solution of the topological design of interior permanent magnet (IPM) machines.
Design/methodology/approach – The IPM motor design domain is discretized into a suitable equivalent graph representation and an Ant System (AS) algorithm is employed to achieve an efficient distribution of materials into this graph.
Findings – The single-objective problems associated with the maximization of the torque and with the maximization of the shape smoothness of the IPM are investigated. The rotor of the device is discretized into a 9×18 grid in both cases, and three different materials are considered: air, iron and permanent magnet.
Research limitations/implications – The graph representation used enables the solution of topological design problems with an arbitrary number of materials, which is relevant for 2 and 3D problems.
Originality/value – From the numerical experiments, the AS algorithm was able to achieve reasonable shapes and torque values for both design problems. The results show the relevance of the mechanism for multi-domain topology optimization of electromagnetic devices.
