Optimal guaranteed cost control of discrete-time uncertain systems with both state and input delays

This paper considers the problem of constructing a controller which quadratically stabilizes an uncertain system and minimizes a guaranteed cost bound on a quadratic cost function. The solution is obtained via a parameter-dependent linear matrix inequality problem.

This paper is concerned with the design problem of non-fragile guaranteed cost controller for uncertain descriptor systems with delays. The delays are time-varying and appear in both the state and the input. The designed controller, under the possibility of feedback gain variations, can guarantee th

In this paper, we first study the problems of robust quadratic mean-square stability and stabilization for a class of uncertain discrete-time linear systems with both Markovian jumping parameters and Frobenius norm-bounded parametric uncertainities. Necessary and sufficient conditions for the above