搜索
HansJournalofAgriculturalSciences,2018,8(8),854-860PublishedOnlineAugust2018inHans.://doi.org/10.12677/hjas.2018.88125:,,,,,,.[J].,2018,8(8):854-860.DOI:10.12677/hjas.2018.88125DesignandDevelopmentofIntelligentManagementSystemforGardenMaintenanceLeiLiu1,ZiqunHe2,SijiaChen2,QixianLai1*,FeiLou3,JiaGuo3,JingChen31KeyLaboratoryofCreativeAgriculture,MinistryofAgricultureandRuralAffairs,ZhejiangCreativeAgriculturalEngineeringTechnologyResearchCenter,InstituteofRuralDevelopment,ZhejiangAcademyofAgriculturalSciences,HangzhouZhejiang2CollegeofAgricultureandFoodScience,ZhejiangA&FUniversity,HangzhouZhejiang3ChengbangEco-EnvironmentCo.Ltd.,HangzhouZhejiangReceived:Jul.20th,2018;accepted:Jul.31st,2018;published:Aug.7th,2018AbstractInordertosolvetheproblemsofsinglefunctionofinformationmanagementsystem,simpleap-plicationtechnologyandlackofprofessionalknowledgeofmaintenancepersonnelinthecurrentgardenmaintenancemanagement,theresearchdesignedanddevelopedtheintelligentmanage-mentsystemforgardenmaintenancebyusingenvironmentalperceptiontechnology,remotemeasurementandcontroltechnology,networkcommunicationtechnologyandotherinformationtechnologybasedongardenplantmodelandgardenexpertknowledge.Theintelligentmanage-mentsystemhadrealizedthefunctionsofreal-timecollectionoflight,temperature,waterandfertilizerdatainthegardenenvironmentandinformationofsceneimageandvideo,warningnoti-ficationandintelligentcontrol.Theintelligentmanagementsystemisofgreatsignificancetoim-provetheautomationlevelofthegardenmaintenanceandworkingefficiencyofthemanagementpersonnel,reducethemaintenancecost,andrealizethescientificmanagement.KeywordsGardenMaintenance,EnvironmentalMonitoring,RemoteControl,IntelligentManagement1221*3331*DOI:10.12677/hjas.2018.881258552320187202018731201887Copyright?2018byauthorsandHansPublishersInc.ThisworkislicensedundertheCreativeCommonsAttributionInternationalLicense(CCBY).[1][2][3]RFID[4][5][6][7]-[12]OpenAccessDOI:10.12677/hjas.2018.881258562.1pH()GPRSPLCPLCFigure1.Systemarchitecture1.DOI:10.12677/hjas.2018.88125857GPRS(APP)APP23.3.1.3Figure2.Theoperationprocessofsystem2.DOI:10.12677/hjas.2018.88125858(a)(b)(c)(d)Figure3.Thefunctionalinterfaceofsystem((a)Environmentalmonitoring;(b)Videosurveillance;(c)Remotecontrol;(d)Warningnotification)3.((a)(b)(c)(d))APP3.2.1)APPAPP2)3)APP4)APPAPPDOI:10.12677/hjas.2018.881258594.AndroidStudioJAVAAndroid1)2)3)5.(2017C02018)[1],.[J].,2013(18):188.[2],.[J].,2016,32(4):50-53.[3],.[J].,2014,45(7):220-230.[4].[M].:,2012.[5],,,,,.[J].,2015,17(2):8-16.[6],,,.[J].,2017,50(4):657-668.[7]Vijayakumar,N.andRamya,R.(2015)TheRealTimeMonitoringofWaterQualityinIoTEnvironment.2015Inter-DOI:10.12677/hjas.2018.88125860nationalConferenceonCircuits,PowerandComputingTechnologies,Nagercoil,19-20March2015,1-5.[8]Srbinovska,M.,Gavrovski,C.,Dimcev,V.,Krkoleva,A.andBorozan,V.(2015)EnvironmentalParametersMonitor-inginPrecisionAgricultureUsingWirelessSensorNetworks.JournalofCleanerProduction,88,297-307.[9],,,,.[J].,2014,19(2):189-195.[10]Kumar,A.andHancke,G.P.A.(2014)AZigbee-BasedAnimalHealthMonitoringSystem.IEEESensorsJournal,15,610-617.[11],,,,.[J].,2015,31(10):1-10.[12]English,A.,Ross,P.,Ball,D.,Upcroft,B.andCorke,P.(2015)LearningCropModelsforVision-BasedGuidanceofAgriculturalRobots.2015IEEE/RSJInternationalConferenceonIntelligentRobotsandSystems,Hamburg,28Sep-tember-2October2015,1158-1163.://kns.cnki.net/kns/brief/result.aspx?dbPrefix=WWJD[ISSN]ISSN2164-55072.://@hanspub.org