简介:Analysistechnologyforelectricalandmechanicaldynamicsofpowerelectronicsequipment.ApplicationofHumanoidRobotSystemforBuildingandHomeManagementService:5thReport:DevelopmentofPrototypeSystem.Braking&tractioncontrolsystemdevelopmentusingCAEtools.BuildinganenginesimulatorforECUtesting.Cableinstallationinvirtualenvironments.
简介:DistributedHardware-In-the-LoopSimulatorforAutonomousContinuousDynamicalSystemswithSpatiallyConstrainedInteractions;Drivingareal-timemulti-physicssimulatortofollowanactualsystem:aDAEobserverapproach;Dynamic-windowsearchforreal-timesimulationofdynamicsystems;Efficientsolvingmethodsexploitingsparsityofmatrixinreal-timemultibodydynamicsimulationwithrelativecoordinateformulation;FlexibleMaterialsinAvangoVirtualEnvironmentFramework;GeneralizedaveragemodellingofFACTSforrealtimesimulationinARENE。
简介:Areal-timeexpertsystemarchitecturebasedonanoveldynamictaskschedulingtechnique.Areal-timelimit-cyclenavigationmethodforfastmobilerobotsanditsapplicationtorobotsoccer,Areal-timelocalsignalcontrolmethodologyforalleviatingincident-inducedtrafficcongestiononarterials.Astudyonfeature-basedvisualservoingcontrolofrobotsystembyutilizingredundantfeature.Asurveyontexturesegmentationmethodsforfabricdefectdetection.
简介:3Dreal-timesimulationofanextendedechocomplexadaptivesystemmodel,Abandwidth-requirement-estilnationtoolusingrcaltimequeuesimulation,Acoarsegrainparallelsolutionmethodforsolvinglargesetofpowersystemsnetworkequations,AFastMethodtoSimulateVirtualDeformableObjectswithForceFeedback……
简介:【摘要】目的 探讨分析对接受输血治疗的患者实施全程闭环智能路径化实时控制的作用。方法 本次研究对象均为在我院接受输血治疗的患者,共计800例,收治时间范围介于2019年1月到2021年1月之间。按照随机数字表法对患者分组,其中400例设为参照组实施常规管理,另外400例设为研究组实施全程闭环智能路径化实时控制管理。观察对两组的管理效果。结果 比较两组的输血风险事件发生率,研究组低于参照组(P<0.05);比较两组的备血、输血操作质量,研究组均少于参照组(P<0.05)。结论 根据本次研究的结果可以确认,对接受输血治疗的患者实施全程闭环智能路径化实时控制有着十分显著的作用,不仅可以提高对患者备血以及输血操作的质量,还可以防止出现输血风险事件,值得在临床上大力推广。
简介:[篇名]Adistributedsystemplatformsupportingreal-timeQoS,[篇名]AProtocolforLooselyTime-TriggeredArchitectures,[篇名]AQoSautonomousdecentralizedprotocol-QoS-ADPforreal-timecontrolsystem,[篇名]AReal-TimeRemoteControlArchitectureUsingMobileCommunication,[篇名]Classificationoftimeseriesdata:asynergisticneuralnetworksapproach,[篇名]MONITORINGANDCONTROLOFAPULSEDETONATIONENGINEUSINGADIODE-LASERFUELCONCENTRATIONANDTEMPERATURESENSOR,[篇名]Realtimecontrolsystemforgasnitridingandnitrocarburizing,[篇名]Realtimeoptimizationforrobotcontrolusingrecedinghorizoncontrolwithequalconstraint。