简介:AFlexibleMultivariableExperimentalAirTankSystemforProcessControlEducation,AGeneralFrameworkforTrackingObjectsinaMulti-CameraEnvironment,AHIGHLYSCALABLE3DCHIPFORBINARYNEURALNETWORKCLASSIFICATIONAPPLICATIONS,AMulti-InstitutionalInterdisciplinaryDistanceControlsExperiment;BringingEngineeringandEngineeringTechnologyStudentsTogether.
简介:AComparativeStudyofFeedbackControllerSensitivitytoallOrdersofPMDforaFixedDGDCompensator.Aconstructionofnonlinearservosystembyusingnonlinearplug-inadaptivecontrolscheme.AcontrollerdesignforreferencesignalwiththeN-thpoweroftilne.ALMI-basedSupervisoryRobustControlforHybridVehicles.ALPVApproachtoRobustH{sub}2andH{sub}∞,StaticOutput-FeedbackDesign.
简介:[篇名]Anear-optimalfuzzylogicstabilizerforweaklyconnectedpowersystems,[篇名]Aneuralnetworkbaseddesignofoptimalcontrollersfornonlinearsystems,[篇名]Anewapproachtodefiningadynamicrelativegain,[篇名]Anewoptimalcontrollerforintelligentvehicleheadwaydistance,[篇名]Apathgenerationalgorithmofanautomaticguidedvehicleusingsensorscanningmethod,[篇名]Aquantitativeanalysisofevolvabilityforanevolutionaryfuzzylogiccontroller,[篇名]ASatelliteAttitudeControllerUsingNonlinearH{sub}∞Approach。
简介:AcasestudyofPIDcontrollertuningbyageneticalgorithm.Acomparisonofcontrollertuningmethodsfromadesignviewpointofthepotentialforenergysavings.AcomputersoftwareforPIDtuningbynewfrequencydomaindesignmethod.Acontrolmethodologyforaninchwormpiezomotor.Acontrollerforaninchwormpiezomotor.
简介:[篇名]Amicro-controllerbasedintelligentcontrollerforacompostingplant,[篇名]ADAPTIVENEURO-FUZZYCONTROLLERFORNON-LINEARCHEMICALMIXINGPROCESS,[篇名]Adaptive,intelligentcontrolofembeddedapplications,[篇名]ComparativeAnalysisofIntelligentControllersforHighPerformanceInteriorPermanentMagnetSynchronousMotorDriveSystems,[篇名]Designinganintelligentcontrollerforagent-basedmanufacturingthroughfuzzysystems,[篇名]DevelopmentofIntelligentControllerforElectricBicyclewithLevelingChargingandPracticalBatterySOCTracingAlgorithm,[篇名]Evasionofmultiple,intelligentpursuersinastationary,clutteredenvironment:aharmonicpotentialfieldapproach。
简介:PAC系统结合RSLogix控制进行木材加工把各自非常强大并具有独特优势的不同控制系统协调在一起,对系统集成商来说即将成为家常便饭,尤其是在终端用户寻求对其控制系统进行改造和改进选择的时候。
简介:由于电力电子驱动应用要求不断增加,并越来越重要。为满足未来需求,电力电子控制算法也应该在减少纹波电流和增强鲁棒性的同时,能够快速处理非线性和未知负载。逆变控制有两种基本原理一直接电流控制和间接电流控制。迄今为止,间接电流控制器(例如通过PWM或空间矢量调制)与直接电流调制比较,应用更广泛。然而,直接电流控制器的快速性、鲁棒性能够很好的适应于处理未知甚至是非线性的负载,因而,似乎更适应于未来的需要。但是其中的一个明显不足在于它是用模拟技术来实现的。漂移、温度的影响等非常明显。本文提出了一种新的高速全数字直接电流控制器。该控制器在10MHZ下工作。能够满足未来的需要,并能够处理非线性负载,克服模拟直流控制器的不足。