Stability robustness analysis of discrete-time systems with multiple large parameter variations

In this paper, we present the stability criteria, sufficient conditions that guarantee the robust stability of linear structured or unstructured variation of discrete time-delay systems subjected to the given bounds of nonlinear function. Both single and composite nonlinear discrete systems with mul

## Abstract The robust stability of discrete singular systems with time‐varying delay is considered. New delay‐dependent stability criteria are proposed, which are dependent on the minimum and maximum delay bounds. A strict delay‐dependent linear matrix inequality (LMI) condition is obtained for a

A simple sujicient stability criterionfor linear discrete systems obtained previously is proved to be necessary and sujicientfor the stability of a class of such systems with parametervariation.

In this paper, robust stabilization for a class of uncertain systems with multiple time delays is considered. A procedure of controller design for the global asymptotic stabilization of such systems via linear control is provided. A numerical example is given to illustrate our main result.

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