@prefix dcat: <http://www.w3.org/ns/dcat#> .
@prefix dct: <http://purl.org/dc/terms/> .
@prefix foaf: <http://xmlns.com/foaf/0.1/> .
@prefix vcard: <http://www.w3.org/2006/vcard/ns#> .
@prefix xsd: <http://www.w3.org/2001/XMLSchema#> .

<https://rec.harvest-normandie.data4citizen.com/dataset/oai-hal-tel-00943296v1> a dcat:Dataset ;
    dct:description """
              This thesis presents the research about design of a new control strategy for stand-alone hybrid power systems. The considered system is composed of two sources, a group of photovoltaic panels and a low-power wind generator, and of two kinds of storage, a bank of lithium-ion batteries and one of supercapacitors. Faced with the problem of energy management in a hybrid power system, and with necessity of maximizing the produced power, we intend to develop an energy-based control strategy. For this purpose, we present the system's Euler-Lagrange modeling and Hamiltonian modeling. These models allow the use of the passivity property, and then the design of Passivity-Based Controllers for each source, in order to maximize its production, and for the supercapacitors, to ensure a fitted power sharing between batteries and them. The controllers are finally implemented in a simulator, and then in a experimental test bench, in order to compare their performances to pre-existent solutions, and to validate the control law for the global hybrid system.
            """ ;
    dct:identifier "tel-00943296" ;
    dct:issued "2026-05-07T02:06:17.052579"^^xsd:dateTime ;
    dct:language "fr" ;
    dct:modified "2026-05-07T02:06:17.052584"^^xsd:dateTime ;
    dct:publisher <https://rec.harvest-normandie.data4citizen.com/organization/cce9db95-46d9-4dc2-84b6-764215d0a002> ;
    dct:title "Energy management in a multi-source photovoltaic and wind system with hybrid battery/supercapacitor storage" ;
    dcat:contactPoint [ a vcard:Organization ;
            vcard:fn "CCSD" ] ;
    dcat:distribution <https://rec.harvest-normandie.data4citizen.com/dataset/oai-hal-tel-00943296v1/resource/2935b2e5-1f64-4f77-bd03-4ddf21a505b2> ;
    dcat:keyword "batterie-litium-ion",
        "commande-par-injection-damortissement",
        "commande-par-mode-de-glissement",
        "commande-passive",
        "energy-management",
        "eolienne",
        "euler-lagrange-modeling",
        "generateur-photovoltaique",
        "gestion-denergie",
        "hamiltonian-modeling",
        "hybrid-power-system",
        "infoeu-reposemanticsdoctoralthesis",
        "infoinfo-aucomputer-science-csautomatic-control-engineering",
        "litium-ion-battery",
        "maximum-power-point-tracking",
        "modelisation-deuler-lagrange",
        "modelisation-hamiltonienne",
        "passivity-based-control",
        "photovoltaic-generator",
        "site-isole",
        "sliding-mode-control",
        "stand-alone-system",
        "suivi-du-point-de-puissance-maximale",
        "supercapacitor",
        "supercondensateur",
        "systeme-de-puissance-hybride",
        "theses",
        "wind-generator" ;
    dcat:landingPage <https://theses.hal.science/tel-00943296> .

<https://rec.harvest-normandie.data4citizen.com/dataset/oai-hal-tel-00943296v1/resource/2935b2e5-1f64-4f77-bd03-4ddf21a505b2> a dcat:Distribution ;
    dct:format "HTML" ;
    dct:issued "2026-05-07T02:06:17.056016"^^xsd:dateTime ;
    dct:modified "2026-05-07T02:06:17.022412"^^xsd:dateTime ;
    dct:title "Energy management in a multi-source photovoltaic and wind system with hybrid battery/supercapacitor storage" ;
    dcat:accessURL <https://theses.hal.science/tel-00943296> .

<https://rec.harvest-normandie.data4citizen.com/organization/cce9db95-46d9-4dc2-84b6-764215d0a002> a foaf:Agent ;
    foaf:name "test_moissonnage_selune" .

<https://theses.hal.science/tel-00943296> a foaf:Document .

