Some frequency-domain approaches to the model reduction of delay systems

Approximation im Frequenzbereich bei der Regelung linearer stochastischer Systeme I/Icrlo.rlb3OBaHtle qaCTOTHI, IX o6stacTefi )I~ pery~mpoBaI-n~ JmHeftm,lx CTOXaCTnqecr, nx CrICTeM H. TONGt A unification of methodology in the frequency-domain approach permits its use in the study of the regulation

ABSTFCACK A new combined time and frequency domain method for the model reduction of discrete systems in z-transfer functions is presented. First, the z-transfer functions are transformed into the w-domain by the bilinear transformation, z = (1 f w)/(l -w). Then, four model reduction methods-Routh a

A mixed method of model-order reduction is introduced, which is based on the linear state-space representation of the original system. The derivation of' its transfer function matrix expression uses the Leverrier algorithm and the application of well known partialfraction expansion techniques togeth

This paper deals with the problem of model reduction based on an optimization technique. The objective function being minimized in the impulse energy of the overall system with unity, single-sided and doublesided weightings. A number of properties of the gradient flows associated with the objective