@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-00859632v1> a dcat:Dataset ;
    dct:description """
              Since the creation of internal combustion engines, research on gasoline and diesel engines were developed independently. To reduce the time and cost of developing an engine, a unified design approach would be interesting. In this context, control and development of internal combustion engines could also be unified. Obviously, this control must be stable, robust with respect to manufacturing disparities and operating points. This thesis then focuses on a unified approach for gasoline engines as well as diesel engines, to achieve a robust of the air path. The engine air path contains the information needed to control the amount and proportions of air and neutral gases in the cylinder (exhaust gas recirculation, throttle valve, turbocharger). This unified approach to control monovariable systems, as well as non-square multivariable systems (number of inputs different from the number of outputs), consists of several steps: identification of a model of the system, system analysis to deduce a control structure, synthesis of a controller around a nominal model, check robust stability, control tests. The coupling inputs to outputs and nonlinearities are taken into account during the synthesis of the controller. This design method has been validated in several applications including a gasoline engine and a diesel engine. Experimental results on a diesel engine high dynamics test bench have shown that the multivariable control results in lower emissions of nitrogen oxides.
            """ ;
    dct:identifier "NNT: 2013ORLE2009" ;
    dct:issued "2026-05-09T19:59:20.303319"^^xsd:dateTime ;
    dct:language "fr" ;
    dct:modified "2026-05-09T19:59:20.303323"^^xsd:dateTime ;
    dct:publisher <https://rec.harvest-normandie.data4citizen.com/organization/cce9db95-46d9-4dc2-84b6-764215d0a002> ;
    dct:title "A Unified Synthesis and Robust Control Design for the Air Path of Internal Combustion Engines" ;
    dcat:contactPoint [ a vcard:Organization ;
            vcard:fn "CCSD" ] ;
    dcat:distribution <https://rec.harvest-normandie.data4citizen.com/dataset/oai-hal-tel-00859632v1/resource/f81f8c24-97ed-4096-8d7b-f2872b7bf3f8> ;
    dcat:keyword "air-path",
        "chaine-dair",
        "commande-robuste",
        "controle-moteur",
        "couplage",
        "coupling",
        "engine-control",
        "infoeu-reposemanticsdoctoralthesis",
        "internal-combustion-engines",
        "moteurs-a-combustion-interne",
        "nonsquare-mimo-system",
        "pid",
        "robust-control",
        "spiotherengineering-sciences-physicsother",
        "systeme-mimo-non-carre",
        "theses" ;
    dcat:landingPage <https://theses.hal.science/tel-00859632> .

<https://rec.harvest-normandie.data4citizen.com/dataset/oai-hal-tel-00859632v1/resource/f81f8c24-97ed-4096-8d7b-f2872b7bf3f8> a dcat:Distribution ;
    dct:format "HTML" ;
    dct:issued "2026-05-09T19:59:20.304761"^^xsd:dateTime ;
    dct:modified "2026-05-09T19:59:20.287381"^^xsd:dateTime ;
    dct:title "A Unified Synthesis and Robust Control Design for the Air Path of Internal Combustion Engines" ;
    dcat:accessURL <https://theses.hal.science/tel-00859632> .

<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-00859632> a foaf:Document .

