Title :
Response surface modeling of microwave filters using coupling matrices
Author :
Glubokov, Oleksandr ; Koziel, Slawomir
Author_Institution :
Eng. Optimization & Modeling Center, Reykjavik Univ., Reykjavik, Iceland
Abstract :
An efficient methodology for creating fast and accurate surrogate models of microwave filters is presented. Instead of approximating S-parameters of the filter structure under consideration directly, the proposed approach is based on response surface modeling of its coupling matrix coefficients. The dependence between designable parameters (filter dimensions) and coupling matrix coefficients is considerably smoother than for S-parameters. As a result, our approach allows obtaining accurate surrogates with substantially smaller number of training samples than required by conventional techniques. The proposed technique is illustrated using a 3rd-order substrate-integrated waveguide filter, as well as compared with a benchmark method (here, direct kriging interpolation of S-parameters). An application of our modeling technique for filter optimization is also included.
Keywords :
S-parameters; matrix algebra; microwave filters; response surface methodology; statistical analysis; substrate integrated waveguides; waveguide filters; 3rd-order substrate-integrated waveguide filter; S-parameters; conventional techniques; coupling matrices; coupling matrix coefficients; designable parameters; direct kriging interpolation; filter dimensions; filter optimization; filter structure; microwave filters; modeling technique; response surface modeling; surrogate models; Band-pass filters; Integrated circuit modeling; Microwave circuits; Microwave filters; Resonator filters; Transversal filters; Computer-aided design (CAD); coupling matrix; microwave filters; response surface approximations; surrogate modeling;
Conference_Titel :
Microwave Conference (EuMC), 2013 European
Conference_Location :
Nuremberg
