Linearization of Parametric FIT-Discretized Systems for Model Order Reduction

## Abstract In this paper a new approach for model order reduction of electrodynamic devices discretized by the finite integration theory is presented. It has two main applications: The fast frequency sweep of the transfer behaviour of resonant filters and the extraction of general equivalent circu

Canonical reduction of second-order response surfaces is a useful technique for ÿnding the form and shape of surfaces and often for discovering redundancies that enable the surface to be expressible in a simpler form with fewer canonical predictor variables than there are original predictor variable

A characterization of all assignable state covariances and a parametrization of all linear stabilizing output feedback controllers that achieve this assignment are given for discrete-time stochastic parameter systems. Key Wordls--Stochastic control; stability robustness; discrete-time systems; feed

Application of two-time scale discrete singular perturbation methods have been limited to the linear systems. The area of discrete-time non-linear systems has received little attention. This paper deals with the singular perturbation model of non-linear discrete-time dynamic systems. We present a sp