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Delay-dependent energy-to-peak stability of 2-D time-delay roesser systems with multiplicative stochastic noises
journal contribution
posted on 2019-12-01, 00:00 authored by Le Van Hien, Hieu TrinhHieu Trinh, Thi Lan-Huong NguyenThis paper is concerned with the problem of energy-to-peak stochastic stability (EPSS) of two-dimensional (2-D) Roesser systems in the presence of state time-varying delays and multiplicative noises. First, a scheme that ensures a 2-D stochastic time-delay system is stochastically stable with an attenuation performance is proposed. The scheme presented in this paper can be regarded as an extension of the Lyapunov-Krasovskii functional (LKF) method for 2-D stochastic time-delay systems, focusing on the EPSS problem. The proposed scheme is then utilized to derive delay-dependent EPSS conditions in terms of tractable linear matrix inequalities (LMIs). A numerical example is given to illustrate the effectiveness of the derived stability conditions.
History
Journal
IEEE transactions on automatic controlVolume
64Issue
12Pagination
5066 - 5073Publisher
IEEELocation
Piscataway, N.J.Publisher DOI
ISSN
0018-9286eISSN
2334-3303Language
engPublication classification
C1 Refereed article in a scholarly journalCopyright notice
2019, IEEEUsage metrics
Keywords
Two-dimensional systemsRoesser modelmultiplicative noisesenergy-to-peak stochastic stabilityScience & TechnologyTechnologyAutomation & Control SystemsEngineering, Electrical & ElectronicEngineeringDelaysStochastic processesNumerical stabilityAsymptotic stabilityCircuit stabilityStability criteriaEnergy-to-peak stochastic stability (EPSS)two-dimensional (2-D) systems2-DIMENSIONAL DIGITAL-FILTERSITERATIVE LEARNING CONTROLDISCRETE-SYSTEMSSWITCHED SYSTEMSVARYING DELAYSMODELSTABILIZATIONCRITERIONMechanical Engineering