Zigbee无线传感器网络英文文献.docx
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Zigbee无线传感器网络英文文献.docx
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Zigbee无线传感器网络英文文献
ZigbeeWirelessSensorNetworkinEnvironmentalMonitoring
Applications
I.ZIGBEETECHNOLOGY
ZigbeeisawirelessstandardbasedonIEEE02.15.4thatwasdevelopedtoaddresstheuniqueneedsofmostwirelesssensingandcontrolapplications.Technologyislowcost,lowpower,alowdatarate,highlyreliable,highlysecurewirelessnetworkingprotocoltargetedtowardsautomationandremotecontrolapplications.It'depictstwokeyperformaneecharacteristics-wirelessradiorangeanddatatransmissionrateofthewirelessspectrum.ComparingtootherwirelessnetworkingprotocolssuchasBluetooth,Wi-Fi,UWBandsoon,showsexcellenttransmissionabilityinlowertransmissionrateandhighlycapacityofnetwork.
A.ZigbeeFramework
Frameworkismadeupofasetofblockscalledlayers.Eachlayerperformsaspecificsetofservicesforthelayerabove.AsshowninFig.1.TheIEEE802.15.4standarddefinesthetwolowerlayers:
thephysical(PHY)layerandthemediumaccesscontrol(MAC)layer.
TheAlliancebuildsonthisfoundationbyprovidingthenetworkandsecuritylayerandthe
Application
frameworkfortheapplicationlayer.
ApplictatianZlgSeeStack
Hardware
Fig.1Framework
TheIEEE802.15.4hastwoPHYlayersthatoperateintwoseparatefrequencyranges:
868/915MHzand2.4GHz.Moreover,MACsub-layercontrolsaccesstotheradiochannelusingaCSMA-CAmechanism.Itsresponsibilitiesmayalsoincludetransmittingbeaconframes,synchronization,andprovidingareliabletransmissionmechanism.
B.Zigbee'sTopology
Thenetworklayersupportsstar,tree,andmeshtopologies,asshowninFig2.Inastartopology,thenetworkiscontrolledbyonesingledevicecalledcoordinator.Thecoordinator
isresponsibleforinitiatingandmaintainingthedevicesonthenetwork.Allotherdevices,knownasenddevices,directlycommunicatewiththecoordinator.Inmeshandtreetopologies,thecoordinatorisresponsibleforstartingthenetworkandforchoosingcertainkeynetworkparameters,butthenetworkmaybeextendedthroughtheuseofrouters.Intreenetworks,routersmovedataandcontrolmessagesthroughthenetworkusingahierarchical
routingstrategy.Meshnetworksallowfullpeer-to-peercommunication.
Fig.2Meshtopologies
Fig.3isanetworkmodel,itshowsthatsupportsbothsingle-hopstartopologyconstructedwithonecoordinatorinthecenterandtheenddevices,andmeshtopology.Inthenetwork,theintelligentnodesarecomposedbyFullFunctionDevice(FFD)andReducedFunctionDevice(RFD).OnlytheFFNdefinesthefullfunctionalityandcanbecomeanetworkcoordinator.Coordinatormanagesthenetwork,itistosaythatcoordinatorcanstartanetworkandallowotherdevicestojoinorleaveit.Moreover,itcanprovidebindingand
address-tableservices,andsavemessagesuntiltheycanbedelivered.
Fig.3Zigbeenetworkmodel
II.THEGREENHOUSEENVIRONMENTALMONITORING
SYSTEMDESIGN
Traditionalagricultureonlyusemachineryandequipmentwhichisolatingandnocommunicatingability.Andfarmershavetomonitorcropsgrowthbythemselves.Evenifsomepeopleuseelectricaldevices,butmostofthemwererestrictedtosimplecommunicationbetweencontrolcomputerandenddeviceslikesensorsinsteadofwireconnection,whichcouldn'btestrictlydefinedaswirelesssensornetwork.Therefore,bythroughusingsensornetworksand,agriculturecouldbecomemoreautomation,morenetworkingandsmarter.
Inthisproject,weshoulddeployfivekindsofsensorsinthegreenhousebasement.Bythroughthesedeployedsensors,theparameterssuchastemperatureinthegreenhouse,soiltemperature,dewpoint,humidityandlightintensitycanbedetectedrealtime.Itiskeytocollectdifferentparametersfromallkindsofsensors.Andinthegreenhouse,monitoringthevegetablesgrowingconditionsisthetopissue.Therefore,longerbatterylifeandlowerdatarateandlesscomplexityareveryimportant.Fromtheintroductionaboutabove,weknowthatmeettherequirementsforreliability,security,lowcostsandlowpower.
A.SystemOverview
TheoverviewofGreenhouseenvironmentalmonitoringsystem,whichismadeupbyonesinknode(coordinator),manysensornodes,workstationanddatabase.Motenodeandsensornodetogethercomposedofeachcollectingnode.Whensensorscollectparametersrealtime,suchastemperatureinthegreenhouse,soiltemperature,dewpoint,humidityandlightintensity,thesedatawillbeofferedtoA/Dconverter,thenbythroughquantizingandencodingbecomethedigitalsignalthatisabletotransmitbywirelesssensorcommunicatingnode.Eachwirelesssensorcommunicatingnodehasabilityoftransmitting,receivingfunction.
InthisWSN,sensornodesdeployedinthegreenhouse,whichcancollectrealtimedataandtransmitdatatosinknode(Coordinator)bythewayofmulti-hop.Sinknodecompletethetaskofdataanalysisanddatastorage.Meanwhile,sinknodeisconnectedwithGPRS/CDMAcanprovideremotecontrolanddatadownloadservice.Inthemonitoringandcontrollingroom,byrunninggreenhousemanagementsoftware,thesinknodecanperiodicallyreceivesthedatafromthewirelesssensornodesanddisplaysthemonmonitors.
B.NodeHardwareDesign
SensornodesarethebasicunitsofWSN.Thehardwareplatformismadeupsensornodescloselyrelatedtothespecificapplicationrequirements.Therefore,themostimportantworkisthenodesdesignwhichcanperfectimplementthefunctionofdetectingandtransmissionasaWSNnode,andperformitstechnologycharacteristics.Fig.4showstheuniversalstructureoftheWSNnodes.Powermoduleprovidesthenecessaryenergyforthesensornodes.Datacollectionmoduleisusedtoreceiveandconvertsignalsofsensors.Dataprocessingandcontrolmodule'functionsarenodedevicecontrol,taskscheduling,and
energycomputingandsoon.Communicationmoduleisusedtosenddatabetweennodesand
frequencychosenandsoon.
Fig.4Universalstructureofthewsnnodes
Inthedatatransferunit,themoduleisembeddedtomatchtheMAClayerandtheNETlayeroftheprotocol.WechooseCC2430astheprotocolchips,whichintegratedtheCPU,RFtransceiver,netprotocolandtheRAMtogether.CC2430usesan8bitMCU(8051),andhas128KBprogrammableflashmemoryand8KBRAM.ItalsoincludesA/Dconverter,someTimers,AES128Coprocessor,WatchdogTimer,32KcrystalSleepmodeTimer,PoweronReset,BrownoutDetectionand21I/Os.Basedonthechips,manymodulesfortheprotocolareprovided.Andthetransferunitcouldbeeasilydesignedbasedonthemodules.
Asanexampleofasensorenddeviceintegratedtemperature,humidityandlight,the
designisshowninFig.5.
Fig.5Thehardwaredesignofasensornode
TheSHT11isasinglechiprelativehumidityandtemperaturemultisensormodulecomprisingacalibrateddigitaloutput.Itcantestthesoiltemperatureandhumidity.TheDS18B20isadigitaltemperaturesensor,whichhas3pinsanddatapincanlinkMSP430directly.Itcandetecttemperatureingreenhouse.TheTCS320isadigitallightsensor.SHT11,DS18B20andTCS320arebothdigitalsensorswithsmallsizeandlowpowerconsumption.Othersensornodescanbeobtainedbychangingthesensors.
Thesensornodesarepoweredfromonboardbatteriesandthecoordinatoralsoallowstobepoweredfromanexternalpowersupplydeterminedbyajumper.
C.NodeSoftwareDesign
Theapplicationsystemconsistsofacoordinatorandseveralenddevices.Thegeneralstructureofthecodeineachisthesame,withaninitializationfollowedbyamainloop.
Thesoftwareflowofcoordinator,uponthecoordinatorbeingstarted,thefirstactionoftheapplicationistheinitializationofthehardware,liquidcrystal,stackandapplicationvariablesandopeningtheinterrupt.Thenanetworkwillbeformatted.Ifthisnethasbeenformattedsuccessfully,somenetworkinformation,suchasphysicaladdress,netID,channelnumberwillbeshownontheLCD.Thenprogramwillstepintoapplicationlayerandmonitorsignal.Ifthereisenddeviceorrouterwanttojoininthisnet,LCDwillshownthisinformation,andshowthephysicaladdressofapplyingnode,andthecoordinatorwillallocateanetaddresstothisnode.Ifthenodehasbeenjoinedinthisnetwork,thedatatransmittedbythisnodewillbereceivedbycoordinatorandshownintheLCD.
Thesoftwareflowofasensornode,aseachsensornodeisswitchedon,itscansall
channelsand,afterseeinganybeacons,checksthatthecoordinatoristheonethatitislookingfor.Itthenperformsasynchronizationandassociation.Onceassociationiscomplete,thesensornodeentersaregularloopofreadingitssensorsandputtingoutaframecontainingthesensordata.Ifsendingsuccessfully,enddevicewillstepintoidlestate;bycontrast,itwillcollectdataonceagainandsendtocoordinatoruntilsendingsuccessfully.
D.GreenhouseMonitoringSoftwareDesign
WeuseVBIanguagetobuildaninterfaceforthetestandthisgreenhousesensornetworksoftwarecanbeinstalledandlaunchedonanyWindows-basedoperatingsystem.Ithas4dialogboxselections:
settingcontrollingconditions,settingTimer,settingrelevantparametersandshowingcurrentstatus.Bysettingsomeparameters,itcanperformthefunctionsofcommunicatingwithport,datacollectionanddataviewing.
Zigbee无线传感器网络在环境监测中的应用
I.Zigbee技术
Zigbee是一种基于IEEE802.15.4的无线标准上被开发用来满足大多数无线传感和控制应用的独特需求。
Zigbee技术是低成本,低功耗,低数据速率,高可靠性,高度安全的无线网络协议实现自动化和远程
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