Non-uniform in time robust global asymptotic output stability for discrete-time systems

This paper studies impulsive discrete systems with time delay. Some novel criteria on uniform asymptotic stability are established by using the method of Lyapunov functions and the Razumikhin-type technique. Examples are presented to illustrate the criteria.

Lyapunov-like characterizations are established for the concepts of, non-uniform in time, global exponential robust stability and input-to-state stability for time-varying control systems.

The paper considers the problem of regulation of velocity and rotor #ux norm of an induction motor. The rotor #ux is assumed unmeasurable, load torque and rotor resistance may be unknown and time varying, with small non-di!erentiable disturbances present. A simple and robust discrete-time control te

## In this paper we construct a new class of parameter-dependent L yapunov functions for discrete-time systems to guarantee robust stability in the presence of time-varying raterestricted plant uncertainty. Extensions to a class of time-varyin 9 nonlinear uncertainty that generalizes the discrete-