Edit Report: Thinking fast and slow in disaster decision making with Smart City Digital Twins

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Many cities are vulnerable to disaster-related mortality and economic loss. Smart City Digital Twins can be used to facilitate disaster decision-making and influence policy, but first they must accurately capture, predict, and adapt to the city’s dynamics, including the varying pace at which changes unfold.

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DataBuildingsCybersecurity and PrivacyEducationPublic SafetyRuralSmart RegionTransportationUtilityWellbeingWirelessAgricultureBroadbandResilienceIntroductionInformationalCybersecurityPrivacyEnergyWasteWaterSmart Buildings

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Active TransitAge-Inclusive CommunitiesAgroforestryArtificial IntelligenceAutonomous VehiclesBenefit, Value and Return on Investment (ROI) ConsiderationsBenefits and Cybersecurity and Privacy RisksBusiness ContinuityBusiness ModelsCase StudiesCase Study Summary Findings & DiscussionCity ResilienceCommunications NetworksCommunications and BroadbandCommunity DevelopmentCommunity EngagementCommunity ResilienceConnected VehiclesConservation AgricultureConsiderations for Deploying Municipal IoTCybersecurity and Privacy Risk ManagementCybersecurity for Smart BuildingsData SovereigntyDesigning and Implementing a Resilient Smart Public Safety ProgramDigital TwinsDisaster RecoveryE-WorksiteEconomic DevelopmentEducation and TrainingEfficiency and ProductivityElectric Cars Energy SavingsElectric Vehicle Charging InfrastructureElectric and Hybrid VehiclesElectrificationEmergency PreparednessEmergency Support FunctionsFamily FarmingFloodsFreightFunding ModelsGeographic Location SystemsGlossaryGrid-Interactive, Efficient and Connected Buildings (GEBs)High Speed RailHistory of Public WiFiHyperloopImpacts to Municipal Governments of IoT NetworksInfrastructureIntelligence AugmentationIntelligent BuildingIntelligent TransportationInterfacing Smart Buildings with City Services and InfrastructureInterfacing with City Services and UtilitiesInternet of ThingsIntroduction to Public WI-FI Use CasesKey Smart City Risk Management ConsiderationsKnowledge ManagementLaw and OrderLegal IssuesLooking Beyond Today’s Smart City DeploymentLow Income HousingMarketing & OutreachMeasurementMeasuring Transportation PerformanceMental HealthMobile Device and Communications NetworksMobilityMobility HubsModular BuildingsMunicipal ServicesNext Generation Building OperationsOpen DataOpen SourceOrganic FarmingOrganisation of CitiesOrganizational and Individual Productivity and Wellness of Smart BuildingsPermaculturePhysical HealthPractical Guide: Deploying an IoT NetworkPractical Guide: IoT Cybersecurity & PrivacyPrecision FarmingPredictive ModelingProcurementProject ManagementPublic Safety and ResponsePublic Safety-Resilience and Regeneration of CommunitiesQuality of LifeRegenerative AgricultureRegenerative UrbanismResilience HubsRight-of-way ManagementRuralSelf Driving Policies and ProceduresSensor TechnologyShared MobilitySmart Building-related MobilitySmart Buildings O&MSmart GridSmart LightingSmart Region BlueprintSmart WasteSmart WaterSoftware Development MethodsStandards and InterfacesTechnology StrategyThe Current State of Municipal IoT DeploymentsThe Urbanization Challenge That Cities FaceTransit-Oriented DevelopmentTrustworthy Smart Cities through Risk ManagementUnderstanding Utility IoT and Smart Cities Financing Best PracticesUrban Air MobilityVariable-Rate TechnologyWhat is a Smart CityWireless Blueprint

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