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A Study Of The Space Mapping Approach To The Inverse Design Problem Of A Coreless Actuator
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| Author(s) |
L. Encica, E. A. Lomonova, A. J. A. Vandenput |
| Abstract |
The traditional approach for solving inverse design
problems involves an optimization procedure applied to an accurate
numerical model (e.g. a finite element model) with high
computational requirements. The space mapping technique
provides the possibility of a significant reduction in the number
of simulations of the accurate model by employing a second
model, characterized by lower accuracy and low computational
requirements. A coreless electromagnetic actuator is selected as
a study model. The same inverse problem is solved with a classical
optimization procedure (Nelder-Meade Simplex) and the
simulation time of the two algorithms is compared. |
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| Filename: | A55553 |
| Filesize: | 207.5 KB |
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| Type |
Members Only |
| Date |
Last modified 2006-02-16 by System |
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