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On Semi-Global Exponential Stability Under Sampling for Locally Lipschitz Time-Delay Systems

Mario Di Ferdinando, Pierdomenico Pepe, S. Di Gennaro

2022IEEE Transactions on Automatic Control35 citationsDOI

Abstract

In this article, the stability preservation problem for locally Lipschitz nonlinear time-delay systems, by emulation of continuous-time dynamic output feedback controllers, is studied. Sufficient Lyapunov-like conditions are provided such that, by suitably fast sampling, the Euler emulation of continuous-time dynamic output feedback controllers ensures the semiglobal exponential stability of the related sampled-data closed-loop system. If other emulation schemes than the Euler one are used, practical semiglobal exponential stability is guaranteed, with arbitrarily small final target ball, by suitably fast sampling. The intersampling system behavior, as well as time-varying sampling intervals, is taken into account. In the provided results, the delay-free case is included as a special case. The practical applicability of the provided results is shown through the study of a nonlinear chemical reactor system with recycle and a glucose–insulin system.

Topics & Concepts

EmulationLipschitz continuityExponential stabilityControl theory (sociology)Nonlinear systemEuler's formulaExponential functionMathematicsSampling (signal processing)Stability (learning theory)Computer scienceControl (management)Mathematical analysisEconomicsFilter (signal processing)PhysicsQuantum mechanicsEconomic growthArtificial intelligenceComputer visionMachine learningStability and Control of Uncertain SystemsAdvanced Control Systems OptimizationControl Systems and Identification
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