Variable-fidelity Design Optimization of Microwave Devices Using Multi-dimensional Cauchy Approximation and Coarsely Discretized Electromagnetic Models
نویسندگان
چکیده
Application of multi-dimensional Cauchy approximation and coarse-discretization electromagnetic (EM) models to surrogatebased optimization of microwave structures is discussed. Space mapping is used as an optimization engine with the surrogate model constructed as a Cauchy approximation of the coarsely discretized device EM model. The proposed approach allows us to perform computationally efficient optimization of microwave structures without using circuit-equivalent coarse models traditionally exploited by space mapping algorithms. We demonstrate our technique through design of a range of microwave devices, including filters, antennas, and transitions. Comprehensive numerical verification of the proposed methodology is carried out with satisfactory designs obtained — for all considered devices — at a computational cost corresponding to a few full-wave simulations. Corresponding author: S. Koziel ([email protected]). 2 Koziel, Ogurtsov, and Bakr
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تاریخ انتشار 2010