Method for evaluating stability bounds for discrete-time singularly perturbed systems

This paper is concerned with the H ∞ control problem via state feedback for fast sampling discrete-time singularly perturbed systems. A new H ∞ controller design method is given in terms of solutions to linear matrix inequalities (LMIs), which eliminates the regularity restrictions attached to the R

The stabilization problem for singularly perturbed, large-scale interconnected, discrete-time systems is considered. A simple extension of the small gain theorem is applied to find suficient conditions which ensure the overall system stability in the presence of interconnected,f&t perturbations.

In this paper, we consider the problem of finite-time H -optimal control of linear, singularly perturbed, discrete-time systems. The problem is addressed from the game theoretic approach. This leads to a singularly perturbed, matrix Riccati difference equation, the solution of which is given in term