interoperabilityIOTSmart GridsEnergy ManagementDigital PlatformsInnovationReference ArchitectureSmart Energyflexibility managementSAREF4ENERSPINEConsumersEcosystemSmart HomeDesign ThinkingInnovation of MeaningCreative Problem SolvingHuman-Centered DesignEEaaStoolboxDSOflexibilityclean energySemantic InteroperabilityDemand ResponseFlexibility TradingGrid-Interactive BuildingsSmart buildingEnergy efficiencybuilding operating systemProsumer home occupantWhole-house energy controlSmart end-user centric energy systemEnergy efficient homeConnected environmentEnergy savingEnergy sociologyExperimentsUser participationDemand Side flexibilityUser EngagementSocial CommunityEnergy MarketsFuture of EnergyBattery Storagereal estate developmentsmart buildingsBuilding as a ServiceLiving as a Serviceuser centered designdata managementenergy digitalizationconsumer centricenergy communitycollective actionsocial scienceregulationEnergy savingsdigitalisationstandardizationDynamic TariffsElectric Storage Water HeatersHousehold Assetscybersecuritysmartgridssmartbuilingsopeninnovationdecarbonisationdemandutilitiesmarket priceselectricityenergy crisisopen callExplainabilitySAREFMachine LearningGrid stabilityControllable loadsStandardisationelectromibilityenergy transitionfood retailartificial neural networkdistribution gridstate estimationelectric mobilityEV chargingsmart infrastructureelectromobilityenergyefficiencysmartbuildingsmartenergymanagementdsoi
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From Demand Response to Flexibility Trading: how interoperability can turn Smart Buildings into Grid-Interactive Buildings
Besides placing consumers at the center of the energy transition, semantic interoperability will stimulate an open competitive eco-system where service providers can offer competing services that can be easily found, used and integrated.