Title :
Design sensitivity analysis for transient eddy current problems using finite element discretization and adjoint variable method
Author :
Park, Il-Han ; Kwak, In-Gu ; Lee, Hyang-Beom ; Hahn, Song-Yop ; Lee, Ki-Sik
Author_Institution :
Dept. of Electr. Eng., Soongsil Univ., Seoul, South Korea
fDate :
5/1/1996 12:00:00 AM
Abstract :
For shape design problems subjected to the transient eddy current equation, a shape design sensitivity expressed explicitly in terms of design variables is derived using a discrete system equation of finite elements and an adjoint equation method. The original state equation is an initial-value problem which is to be solved by time-stepping finite element method. On the other hand, the adjoint equation is obtained as a terminal-value problem which is also to be solved by time-stepping finite element method. With the state and adjoint variables solved, the sensitivity is evaluated, which is employed in a gradient-based optimization algorithm. As a numerical example, an eddy current distribution control on a metal surface is treated using the proposed method in an induction heating system
Keywords :
current distribution; design engineering; discrete systems; eddy currents; finite element analysis; induction heating; initial value problems; optimisation; sensitivity analysis; transient analysis; adjoint variable method; design sensitivity analysis; design variables; discrete system equation; eddy current distribution control; finite element discretization; gradient-based optimization algorithm; induction heating system; initial-value problem; metal surface; shape design problems; terminal-value problem; time-stepping finite element method; transient eddy current problems; Control systems; Design optimization; Eddy currents; Equations; Finite element methods; Matrices; Permeability; Sensitivity analysis; Shape; Surface treatment; Temperature control; Transient analysis;
Journal_Title :
Magnetics, IEEE Transactions on
