Title :
Model reduction of discrete linear systems via frequency-domain balanced structure
Author :
Wang, Dali ; Zilouchian, Ali
Author_Institution :
STM Wireless Inc., Irvine, CA, USA
fDate :
6/1/2000 12:00:00 AM
Abstract :
In this paper, a novel model reduction technique for discrete linear time invariant systems is presented. The proposed technique is based on a conceptual viewpoint of the controllability and the observability Grammian balancing of a discrete system in an arbitrary frequency range of operation. It could be viewed as the generalization of the Moore´s balance structure approach in a specific frequency range of operation. Two modified Lyapunov equations are derived for the proposed frequency-domain balancing. Various properties of the reduced model such as controllability, observability, stability, its uniqueness, and the error bound are examined. A comparison study of the proposed method with the Moore´s time domain technique is presented using a sixth-order digital filter
Keywords :
Lyapunov methods; controllability; digital filters; discrete systems; frequency-domain analysis; linear systems; observability; reduced order systems; stability; time-domain analysis; Grammian balancing; Moore´s balance structure approach; controllability; discrete linear systems; error bound; frequency-domain balanced structure; model reduction; modified Lyapunov equations; observability; sixth-order digital filter; stability; time domain technique; time invariant systems; uniqueness; Controllability; Digital filters; Equations; Error correction; Frequency; Linear systems; Observability; Reduced order systems; Stability; Time invariant systems;
Journal_Title :
Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on
