Title :
The Caratheodory-Fejer problem and H∞/l1 identification: a time domain approach
Author :
Chen, Jie ; Nett, Carl N.
Author_Institution :
Coll. of Eng., California Univ., Riverside, CA, USA
fDate :
4/1/1995 12:00:00 AM
Abstract :
In this paper we study a worse-case, robust control oriented identification problem. This problem is in the framework of H∞ identification, but the formulation here is more general. The available a priori information in our problem consists of a lower bound on the relative stability of the plant, an upper bound on a certain gain associated with the plant, and an upper bound on the noise level. The plant to be identified is assumed to lie in a certain subset in the space of H∞, characterized by the assumed a priori information. The available experimental information consists of a corrupt finite output time series obtained in response to a known nonzero but otherwise arbitrary input. The proposed algorithm is in the class of interpolatory algorithms which are known to possess desirable optimality properties in reducing the identification error. This algorithm is obtained by solving an extended Caratheodory-Fejer problem via standard convex programming methods. Both the algorithm and error bounds ran be applied to l1 identification problems as well
Keywords :
H∞ control; convex programming; identification; interpolation; optimisation; robust control; time series; time-domain analysis; Caratheodory-Fejer problem; H∞ identification; convex programming; corrupt finite output time series; identification error; interpolation; l1 identification; lower bound; relative stability; time domain; upper bound; worse-case robust control; Control design; Design methodology; Frequency estimation; Noise level; Robust control; Stability; Time factors; Transfer functions; Upper bound;
Journal_Title :
Automatic Control, IEEE Transactions on
