Frequency Domain Analysis of Uncertain Time-Varying Discrete-Time Systems

This paper addresses the exponential stability and estimates the stability degree of discrete systems with a time-varyiny delay and uncertainties. On the basis of the Lyapunov stability theorem together with the improved Razumikhin type theorem and norm techniques, several new delay-independent crit

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In this work time domain representations for nonlinear time-varying systems are pursued. The analysis is carried out in th,e framework of Schu\*artz's distribution theory. Two approaches are investigated. The first is restricted to semiadditive systems. The other is based on the generalized impulse

The paper develops tools and methods for linear time-varying, discrete-time systems analysis. It consists of two parts. The first one gives a theoretical background. There are definitions and numerical algorithms for approximating frequency characteristics. The main method is based on singular value