Stability and convergence properties of forced infinite-dimensional discrete-time Lur'e systems
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Publication:3386604
DOI10.1080/00207179.2019.1575528zbMath1454.93244OpenAlexW2913302160WikidataQ128475210 ScholiaQ128475210MaRDI QIDQ3386604
Max E. Gilmore, Chris Guiver, Hartmut Logemann
Publication date: 5 January 2021
Published in: International Journal of Control (Search for Journal in Brave)
Full work available at URL: http://researchrepository.napier.ac.uk/Output/2677279
absolute stabilityinput-to-state stabilitysampled-data systemsLur'e systemsincremental stabilityintegral projection modelsconverging-input converging-state propertyinfinite-dimensional discrete-time systems
Discrete-time control/observation systems (93C55) Input-output approaches in control theory (93D25) Sampled-data control/observation systems (93C57) Exponential stability (93D23)
Related Items
Sampled-data integral control of multivariable linear infinite-dimensional systems with input nonlinearities ⋮ The circle criterion for a class of sector-bounded dynamic nonlinearities ⋮ Low‐gain integral control for a class of discrete‐time Lur'e systems with applications to sampled‐data control ⋮ Incremental input-to-state stability for Lur'e systems and asymptotic behaviour in the presence of Stepanov almost periodic forcing ⋮ Dynamic observers for unknown populations ⋮ Semi-global incremental input-to-state stability of discrete-time Lur'e systems ⋮ Boundedness, persistence and stability for classes of forced difference equations arising in population ecology
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Cites Work
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