Optimal shape design of multi-layered IPMSM using adaptive dynamic Taylor Kriging model
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[1] Shenyang University of Technology
Shenyang University of Technology
China
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[2] Chungbuk National University
Chungbuk National University
Corea del Sur
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- Localización: Compel: International journal for computation and mathematics in electrical and electronic engineering, ISSN 0332-1649, Vol. 37, Nº 2, 2018, págs. 581-590
- Idioma: inglés
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Resumen
Purpose This paper aims to propose a numerically efficient multi-objective optimization strategy, which can improve both the efficiency and performance during the optimization process.
Design/methodology/approach This paper discusses the multi-objective optimization algorithm by combining multi-objective differential evolution (MODE) algorithm with an adaptive dynamic Taylor Kriging (ADTK) model.
Findings The proposed approach is validated through application to an analytic example and applied to a shape optimal design of a multi-layered interior permanent magnet synchronous motor for torque ripple reduction while maintaining the average torque.
Originality/value The ADTK model selects its basis functions adaptively and dynamically so that it may have better accuracy than any other Kriging models. Through adaptive insertion of new sampling data, it guarantees minimum required sampling data for a desired fitting accuracy.
