• español
  • English
  • français
  • Deutsch
  • português (Brasil)
  • italiano
    • español
    • English
    • français
    • Deutsch
    • português (Brasil)
    • italiano
    • español
    • English
    • français
    • Deutsch
    • português (Brasil)
    • italiano
    JavaScript is disabled for your browser. Some features of this site may not work without it.

    Listar

    Todo UVaDOCComunidadesPor fecha de publicaciónAutoresMateriasTítulos

    Mi cuenta

    Acceder

    Estadísticas

    Ver Estadísticas de uso

    Compartir

    Ver ítem 
    •   UVaDOC Principal
    • PRODUCCIÓN CIENTÍFICA
    • Departamentos
    • Dpto. Ingeniería de Sistemas y Automática
    • DEP44 - Artículos de revista
    • Ver ítem
    •   UVaDOC Principal
    • PRODUCCIÓN CIENTÍFICA
    • Departamentos
    • Dpto. Ingeniería de Sistemas y Automática
    • DEP44 - Artículos de revista
    • Ver ítem
    • español
    • English
    • français
    • Deutsch
    • português (Brasil)
    • italiano

    Exportar

    RISMendeleyRefworksZotero
    • edm
    • marc
    • xoai
    • qdc
    • ore
    • ese
    • dim
    • uketd_dc
    • oai_dc
    • etdms
    • rdf
    • mods
    • mets
    • didl
    • premis

    Citas

    Por favor, use este identificador para citar o enlazar este ítem:https://uvadoc.uva.es/handle/10324/64320

    Título
    Finite-Time Stability for Discrete-Time Systems with Time-Varying Delays and Nonlinear Perturbations Using Relaxed Summation Inequality
    Autor
    El Akchioui, Nabil
    El Fezazi, Nabil
    Farkous, Rashid
    Álvarez Álvarez, María TeresaAutoridad UVA Orcid
    Tissir, El Houssaine
    Año del Documento
    2023
    Editorial
    Springer
    Descripción
    Producción Científica
    Documento Fuente
    Iranian Journal of Science and Technology, Transactions of Electrical Engineering, Octubre , 2023
    Resumen
    This article deals with the problem of delay-dependent finite-time stability (FTS) for delayed discrete-time systems with nonlinear perturbations. First, based on a Lyapunov–Krasovskii Functional, delay-dependent FTS conditions are provided by introducing some free-weighting matrices. Then, a new reduced free-matrix-based inequality is established to estimate the single summation term. The dimensions of these free matrices integral in our results are less than those obtained in the literature. This reduction in the number of variables does not mean that our method is a particular case but simply that our approach is completely different from the others and therefore our method is more effective. Thus, less conservative design conditions are obtained in this paper in terms of linear matrix inequalities (LMIs) and solved using MATLAB’s LMI toolbox to achieve the desired performance. The purpose of this paper is to derive sufficient conditions that ensure the finite-time stability of the discrete-time system. Finally, numerical examples are examined to show the advantage and effectiveness of the proposed results.
    Materias (normalizadas)
    331005
    Materias Unesco
    331005
    Palabras Clave
    Finite time stability (FTS) Delayed discrete-time systems Nonlinear perturbations Reduced free-matrixbased inequality
    ISSN
    2228-6179
    Revisión por pares
    SI
    DOI
    10.1007/s40998-023-00669-8
    Patrocinador
    MICInn, PID2021-123654OB-C31
    MICInn, PID2020-112871RB-C21
    Version del Editor
    https://link.springer.com/article/10.1007/s40998-023-00669-8#citeas
    Propietario de los Derechos
    Propietario de los derechos: Springer
    Idioma
    eng
    URI
    https://uvadoc.uva.es/handle/10324/64320
    Tipo de versión
    info:eu-repo/semantics/submittedVersion
    Derechos
    restrictedAccess
    Aparece en las colecciones
    • DEP44 - Artículos de revista [78]
    Mostrar el registro completo del ítem
    Ficheros en el ítem
    Nombre:
    ISTE_paper.pdf
    Tamaño:
    222.1Kb
    Formato:
    Adobe PDF
    Descripción:
    Fichero previo a la aceptación
    Thumbnail
    Visualizar/Abrir

    Universidad de Valladolid

    Powered by MIT's. DSpace software, Version 5.10