Search results for "APF"

showing 10 items of 40 documents

Planificación de la producción en un entorno multifábrica [Dataset]

2018

Las cadenas de suministro en las que se insertan los procesos de producción son cada vez más complejas. Las empresas que cuentan con fábricas en diferentes localizaciones reparten entre ellas la fabricación de piezas y componentes. E incluso llegan a externalizar el montaje de los productos finales, enviando sus componentes a otras plantas para su montaje final. Surgen, por tanto, nuevos problemas de planificación y programación de la producción inherentes a esta forma de producción descentralizada. Se ha de asignar la producción de cada planta, programar su producción y, llegados el caso, planificar los envíos a la planta en la que se realizará el montaje. Si bien es cierto que cada uno de…

DAPFSPAssemblyVNDMétodos heurísticosUNESCO::CIENCIAS ECONÓMICASPFSPProducciónRendimiento computacionalEconomíaDistributedModelos matemáticosIndustriaScatter SearchFabricaciónBúsqueda dispersaDPFSPEmpresaUNESCO::MATEMÁTICAS
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Planificación de la producción en un entorno multifábrica

2018

Las cadenas de suministro en las que se insertan los procesos de producción son cada vez más complejas. Las empresas que cuentan con fábricas en diferentes localizaciones reparten entre ellas la fabricación de piezas y componentes. E incluso llegan a externalizar el montaje de los productos finales, enviando sus componentes a otras plantas para su montaje final. Surgen, por tanto, nuevos problemas de planificación y programación de la producción inherentes a esta forma de producción descentralizada. Se ha de asignar la producción de cada planta, programar su producción y, llegados el caso, planificar los envíos a la planta en la que se realizará el montaje. Si bien es cierto que cada uno de…

DAPFSPAssemblyVNDMétodos heurísticosUNESCO::CIENCIAS ECONÓMICASPFSPProducciónRendimiento computacionalEconomíaDistributedModelos matemáticosIndustriaScatter SearchFabricaciónBúsqueda dispersaDPFSPEmpresaUNESCO::MATEMÁTICAS
researchProduct

Planificación de la producción en un entorno multifábrica

2018

Las cadenas de suministro en las que se insertan los procesos de producción son cada vez más complejas. Las empresas que cuentan con fábricas en diferentes localizaciones reparten entre ellas la fabricación de piezas y componentes. E incluso llegan a externalizar el montaje de los productos finales, enviando sus componentes a otras plantas para su montaje final. Surgen, por tanto, nuevos problemas de planificación y programación de la producción inherentes a esta forma de producción descentralizada. Se ha de asignar la producción de cada planta, programar su producción y, llegados el caso, planificar los envíos a la planta en la que se realizará el montaje. Si bien es cierto que cada uno de…

DAPFSPAssemblyVNDMétodos heurísticosUNESCO::CIENCIAS ECONÓMICASPFSPProducciónRendimiento computacionalEconomíaModelos matemáticosDistributedIndustriaScatter SearchFabricaciónDPFSPEmpresaBúsqueda dispersaUNESCO::MATEMÁTICAS
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An Adaptive Robust Predictive Current Control for Three-Phase Grid-Connected Inverters

2011

This paper presents an adaptive robust predictive current control (RPCC) for grid-connected three-phase inverters that exhibit zero steady-state current error. The error correction is achieved by means of an adaptive strategy that works in parallel with the deadbeat algorithm, therefore preserving the typical fast response of the predictive law. The resulting control adapts to any particular L or LCL filter by estimation of the resistive part of the filter. As a variety of the RPCC class of control, it offers the best tradeoff between robustness and speed. © 2009 IEEE.

EngineeringAdaptive controlThree-phase inverterGrid connected invertersElectric current controlElectric invertersTECNOLOGIA ELECTRONICAControl theoryRobustness (computer science)Active power filteringCurrent-controlled voltage source invertersFast responseElectrical and Electronic EngineeringActive filterAdaptive strategyActive filtersActive power filtering (APF)Power convertersbusiness.industryGrid-connectedPredictive current controlGridSteady-state currentsDeadbeat algorithmModel predictive controlCurrent-controlled voltage source inverter (VSI)Robust predictive current control (RPCC)Three-phaseControl and Systems EngineeringRobust controlLCL filtersError detection and correctionbusinessIEEE Transactions on Industrial Electronics
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"Table 16" of "Measurement of dijet production with a veto on additional central jet activity in pp collisions at sqrt(s)=7 TeV using the ATLAS detec…

2013

The Gap Fraction as a function of the dijet veto energy, Q0, for boundary jets having a mean transverse momentum in the range [120,150} GeV and rapidity difference in the range [4,5]. Data are shown for two dijet selections: (i) the dijet system is defined as the two leading-pT jets in the event (ii) the dijet system is defined as the most forward-backward jets in the event.

GAPFRACTIONInclusiveDijet ProductionProton-Proton ScatteringAstrophysics::High Energy Astrophysical PhenomenaHigh Energy Physics::PhenomenologyP P --> JET JET X7000.0High Energy Physics::ExperimentJet Production
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"Table 2" of "Measurement of dijet production with a veto on additional central jet activity in pp collisions at sqrt(s)=7 TeV using the ATLAS detect…

2013

The Gap Fraction as a function of the mean transverse momentum of the boundary jets for boundary jets having a rapidity difference in the range [2,3], using a jet veto Q0 = 20 GeV. Data are shown for two dijet selections: (i) the dijet system is defined as the two leading-pT jets in the event (ii) the dijet system is defined as the most forward-backward jets in the event.

GAPFRACTIONInclusiveDijet ProductionProton-Proton ScatteringAstrophysics::High Energy Astrophysical PhenomenaHigh Energy Physics::PhenomenologyP P --> JET JET X7000.0High Energy Physics::ExperimentJet Production
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"Table 4" of "Measurement of dijet production with a veto on additional central jet activity in pp collisions at sqrt(s)=7 TeV using the ATLAS detect…

2013

The Gap Fraction as a function of the mean transverse momentum of the boundary jets for boundary jets having a rapidity difference in the range [4,5], using a jet veto Q0 = 20 GeV. Data are shown for two dijet selections: (i) the dijet system is defined as the two leading-pT jets in the event (ii) the dijet system is defined as the most forward-backward jets in the event.

GAPFRACTIONInclusiveDijet ProductionProton-Proton ScatteringAstrophysics::High Energy Astrophysical PhenomenaHigh Energy Physics::PhenomenologyP P --> JET JET X7000.0High Energy Physics::ExperimentJet Production
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"Table 5" of "Measurement of dijet production with a veto on additional central jet activity in pp collisions at sqrt(s)=7 TeV using the ATLAS detect…

2013

The Gap Fraction as a function of the mean transverse momentum of the boundary jets for boundary jets having a rapidity difference in the range [5,6], using a jet veto Q0 = 20 GeV. Data are shown for two dijet selections: (i) the dijet system is defined as the two leading-pT jets in the event (ii) the dijet system is defined as the most forward-backward jets in the event.

GAPFRACTIONInclusiveDijet ProductionProton-Proton ScatteringAstrophysics::High Energy Astrophysical PhenomenaHigh Energy Physics::PhenomenologyP P --> JET JET X7000.0High Energy Physics::ExperimentJet Production
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"Table 15" of "Measurement of dijet production with a veto on additional central jet activity in pp collisions at sqrt(s)=7 TeV using the ATLAS detec…

2013

The Gap Fraction as a function of the dijet veto energy, Q0, for boundary jets having a mean transverse momentum in the range [120,150} GeV and rapidity difference in the range [2,3]. Data are shown for two dijet selections: (i) the dijet system is defined as the two leading-pT jets in the event (ii) the dijet system is defined as the most forward-backward jets in the event.

GAPFRACTIONInclusiveDijet ProductionProton-Proton ScatteringAstrophysics::High Energy Astrophysical PhenomenaHigh Energy Physics::PhenomenologyP P --> JET JET X7000.0High Energy Physics::ExperimentJet Production
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"Table 3" of "Measurement of dijet production with a veto on additional central jet activity in pp collisions at sqrt(s)=7 TeV using the ATLAS detect…

2013

The Gap Fraction as a function of the mean transverse momentum of the boundary jets for boundary jets having a rapidity difference in the range [3,4], using a jet veto Q0 = 20 GeV. Data are shown for two dijet selections: (i) the dijet system is defined as the two leading-pT jets in the event (ii) the dijet system is defined as the most forward-backward jets in the event.

GAPFRACTIONInclusiveDijet ProductionProton-Proton ScatteringAstrophysics::High Energy Astrophysical PhenomenaHigh Energy Physics::PhenomenologyP P --> JET JET X7000.0High Energy Physics::ExperimentJet Production
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