A multivariable normal-form for model reduction of discrete-time systems

Starting by the block-controllability form, a normal form for multivariable discrete-time systems is developed. The construction of this normal form is made straight-forward by the introduction of the matrix Schur-Cohn table. It shows a one-to-one (scalar-to-matrix) correspondence with the single-in

This paper investigates the problem of H∞ model reduction for linear discrete-time singular systems. Without decomposing the original system matrices, necessary and su cient conditions for the solvability of this problem are obtained in terms of linear matrix inequalities (LMIs) and a coupling non-c

Two model reducnon schemes ywld an tdenncal reduced model, and one of the methods prowdes an zdentlficatlon algorithm for a two-dtmenswnal pulse response sequence Key Words--Discrete time systems, identification, linear systems, system-order reduction, time-varying systems, stabthty Abstract--Linear

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

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