Modeling of microwave devices with space mapping and radial basis functions

## Abstract We review the latest developments in space‐mapping‐based modeling techniques with applications in microwave engineering. We discuss the two techniques that utilize a combination of standard space mapping and function approximation methodologies, in particular fuzzy systems and support v

## Abstract Radial basis functions are of interest in connection with a variety of approximation problems in the neural networks area, and in other areas as well. Here we show that the members of some interesting families of shift‐varying input–output maps, that take a function space into a functio

## Abstract We describe an improvement of a recent space mapping (SM) modeling approach that uses variable weight coefficients (SM‐VWC). Our modification alleviates the main drawback of SM‐VWC: the computational overhead related to a separate parameter extraction required for each evaluation of the

## Abstract Three classes of higher‐order hierarchical basis functions, constructed from standard orthogonal polynomials, are proposed and evaluated for the modeling of combined metallic and dielectric microwave structures. The reduction of the condition number of moment‐method matrices is several

The Boundary Element Method is a very e ective method for solving linear di erential equations. To use it also in the consideration of non-linear problems some di erent procedures were developed, among them the dual reciprocity method and the particular integral method. Both procedures use interpola