Title :
Shape optimization of electromagnetic devices using high order derivatives
Author :
Kwak, In-Gu ; Young-woo, A. ; Hahn, Song-Yop ; Park, II-Han
Author_Institution :
Dept. of Electr. Eng., Seoul Nat. Univ., South Korea
fDate :
5/1/1999 12:00:00 AM
Abstract :
This paper describes a new method for the faster shape optimization of the electromagnetic devices. In conventional iterative method of shape design optimization using design sensitivity based on a finite element method, meshes for a new shape of the model are generated and a discretized system equation is solved using the meshes in each iteration. They cause much design time. To save this time, a polynomial approximation of the finite element solution with respect to the geometric design parameters using Taylor expansion is constructed. This approximate state variable expressed explicitly in terms of design parameters is employed in a gradient-based optimization method. The proposed method is applied to the shape design of a quadrupole magnet
Keywords :
electromagnetic devices; magnets; mesh generation; optimisation; polynomial approximation; sensitivity analysis; Taylor expansion; design sensitivity; discretized system equation; electromagnetic devices; finite element method; geometric design parameters; high order derivatives; iterative method; meshes generation; polynomial approximation; quadrupole magnet; shape optimization; Design optimization; Electromagnetic devices; Finite element methods; Iterative methods; Maxwell equations; Optimization methods; Polynomials; Sensitivity analysis; Shape; Taylor series;
Journal_Title :
Magnetics, IEEE Transactions on
