Shape Optimization of Flux Barriers in IPMSM by using Polygon Model Method with GP

Created by W.Langdon from gp-bibliography.bib Revision:1.3973

@InProceedings{Ishikawa:2014:ICEM,
  author =       "Kota Ishikawa and Wataru Kitagawa and 
                 Takaharu Takeshita",
  title =        "Shape Optimization of Flux Barriers in IPMSM by using
                 Polygon Model Method with GP",
  booktitle =    "International Conference on Electrical Machines (ICEM
                 2014)",
  year =         "2014",
  month =        sep,
  pages =        "1403--1408",
  keywords =     "genetic algorithms, genetic programming, Finite
                 element method, Shape optimization, Polygon model
                 method, Interior, permanent magnet synchronous motor",
  DOI =          "doi:10.1109/ICELMACH.2014.6960365",
  size =         "6 pages",
  abstract =     "Recently, one of the problems is high efficiency for
                 the electromagnetic machinery like a motor. This paper
                 presents a new method of shape optimisation. The target
                 is flux barriers in the interior permanent magnetic
                 synchronous motor (IPMSM) which is adopted as the
                 benchmark model in IEE of Japan. Authors use the
                 polygon model method with genetic programming (GP) by
                 the two-dimensional finite element method (2D-FEM). The
                 purpose is the investigation of shape design of flux
                 barriers to improve the electromagnetic
                 characteristics. In a conventional method as a size
                 optimisation, its design parameters are limited in most
                 cases. However, the proposed method is the shape
                 optimisation by the tree structure. This method has
                 more freedom for design parameters because the tree
                 structure is possible to express every shape design.",
  notes =        "Also known as \cite{6960365}",
}

Genetic Programming entries for Kota Ishikawa Wataru Kitagawa Takaharu Takeshita

Citations