Title :
A recursive Schur-based solution of the four-block problem
Author :
Constantinescu, Tiberiu ; Sayed, Ali H. ; Kailath, Thomas
Author_Institution :
Programs in Math. Sci., Texas Univ., Richardson, TX, USA
fDate :
7/1/1994 12:00:00 AM
Abstract :
We describe a new solution to the four-block problem using the method of generalized Schur analysis. We first reduce the general problem to a simpler one by invoking a coprime factorization with a block-diagonal inner matrix. Then, using convenient spectral factorizations, we are able to parameterize the unknown entry in terms of a Schur-type matrix function, which is shown to satisfy a finite number of interpolation conditions of the Hermite-Fejer type. All possible interpolating functions are then determined via a simple recursive procedure that constructs a transmission-line (or lattice) cascade of elementary J-lossless sections. This also leads to a parameterization of all solutions of the four-block problem in terms of a linear fractional transformation
Keywords :
interpolation; matrix algebra; optimal control; state-space methods; H∞ control; Hermite-Fejer type; J-lossless; Schur-type matrix function; block diagonal inner matrix; coprime factorization; four block problem; generalized Schur analysis; interpolation conditions; linear fractional transformation; parameterization; recursive Schur-based solution; spectral factorizations; state space structure; Centralized control; Gold; Information systems; Interpolation; Lattices; Propagation losses; Transfer functions; Transmission line matrix methods; Transmission lines; Upper bound;
Journal_Title :
Automatic Control, IEEE Transactions on
