通信类 英文原文及译文.docx
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通信类 英文原文及译文.docx
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通信类英文原文及译文
Abstract
Inthispaper,wepresentasystemusinganAndroidsmartphonethatcollects,displayssensordataonthescreenandstreamstothecentralserversimultaneously.BluetoothandwirelessInternetconnectionsareusedfordatatransmissionsamongthedevices.Also,usingNearFieldCommunication(NFC)technology,wehaveconstructedamoreefficientandconvenientmechanismtoachieveanautomaticBluetoothconnectionandapplicationexecution.Thissystemisbeneficialonbodysensornetworks(BSN)developedformedicalhealthcareapplications.Fordemonstrationpurposes,anaccelerometer,atemperaturesensorandelectrocardiography(ECG)signaldataareusedtoperformtheexperiments.Rawsensordataareinterpretedtoeithergraphicalortextnotationstobepresentedonthesmartphoneandthecentralserver.Furthermore,aJava-basedcentralserverapplicationisusedtodemonstratecommunicationwiththeAndroidsystemfordatastorageandanalysis.
1 INTRODUCTION
Mobilecommunicationdevicesaredesignedtoachievemultiplepurposesbutmostlyarefocusedonvoiceandshortmessagingservices.Wirelesstechnologyhasthebenefitofimprovingdatamobility,usingdifferentprotocolssuchasWi-FiandBluetooth.Inthemedicalfield,manystudiesintroducedbodysensornetworks(BSN)forhealthcareapplications.BSNimprovesthepatient’smonitoringsystemwiththehelpofthemoderntechnology.Thiscanbedonebyvariouswearablesensorsequippedwithwirelesscapabilities,Inaddition,asseeninvariousresearches,itisdesirabletodevelopalowpowersystem.Differenttypesofsensorscanbeusedformonitoringmovements,temperaturechanges,heart-beat,bloodpressureandmoretoestablishapatientmonitoringsystem.Bluetoothisoneofthewidelyavailableoptionsformanagingwirelessnetworkstosimultaneouslyconnectupto7ancillarydevices.
Inthispaper,weintroduceamicrocontrollersystemthatcommunicatesviaBluetoothwiththesmartphonefordatacollections,andstreamsdatasimultaneouslytothecentralserverfordatastorageandanalysisviatheInternet.ThissystemprovidesasolutionformobilepatientsbyformingawirelessBSNinBluetoothandWi-Fi/cellularInternetconnectionswithacommonAndroidsmartphonewhichcanmonitorthepatientstatusviawirelessdatatransmission.
2 SYSTEMDESIGN
Figure1representstheMobileSensorDataCollectorthatinvolvesBluetooth,NearFieldCommunication(NFC)andwirelessInternetconnectionsforcollecting,streaming,storingandanalyzingsensordatainreal-time.ThreedifferentsensorstransfersampleddatatotheMSP430BT5190whichcommunicatewiththeCC2560BluetoothtransmitterviaUARTandsendsdatatoasmartphoneusingtheAndroidandBluetoothsystem.Onthephone,itdisplaysreceiveddataonthescreenandstreamstotheserverforstorageanddataanalysis.Theterm“real-time”inthispaperisusedtoexpressthatdatatransfersareachievedwithoutperceivabledelaysamongthedevices.Also,sincetheAndroidsystemiscapableofrunningapplicationsoftwareinthebackgroundmode,theapplicationusedinthispaperhastheabilitytotransferdataduringaphonecall.
Figure1 OverallDesignofMobileSensorDataCollector
AJava-basedUDPserverapplicationisusedtocollectdatasentfromthesmartphoneviatheInternet.Whenreceivingdatafromthesmartphone,theserverapplicationdisplaysandsavesallreceiveddatatoatextfileforlateranalysis.Forexperimentalpurposes,thisserverwasimplementedwithanordinarydesktoptodemonstrateourfundamentalidea.Also,UDPprotocolwaschosenoverTCPbecauseUDPusuallyachievesfastertransmissionthantheTCPprotocolbynotwaitingforanacknowledgmentsignalbacktotheorigin.
3 EXPERIMENTRESULTS
AsshowninFigure1,allexperimentsareinitiatedusinganNFCtaggingprocesstostarttheAndroidapplicationandinitiatetheBluetoothconnectionautomatically.Inthisparticularsmartphone,theNFCtagreaderislocatedonthebackside.TheuserneedstotapontheNFCtagasshowninFigure2toruntheprogram.TheNFCtagcontainingtheBluetoothMACaddressoftheCC2560Bluetoothdeviceisattachedtodemonstratewherethetagshouldbelocated.
Figure2 Initiatingconnectionprocess
Upto7ancillarysensornodescanbesimultaneouslyconnectedtotheAndroidsystem.However,asinglesensorBluetoothconnectionwasemployedfortestingpurposes.
3.1 AccelerometerDataCollection
Inthispaper,theAndroid2.3.3and4.0.3operatingsystemsaretestedusingGoogleNexusStodisplaycollecteddataandstreamdatatotheserver.ThedesignofthenewsystemisachievedfirstbycollectingsensordatafromtheMSP430BT5190,transferredviatheCC2560Bluetoothtransmitter.Then,theBluetoothtransmittersendsdatatothesmartphone,whichdisplaysthecollecteddatainreal-time.Asanexample,Figure3(a)showstheaccelerometerdatacollectedanddisplayedonthesmartphoneintextandFigure3(b)showsthedatainthegraphicalnotation.
Figure3 Receivedreal-timeaccelerationdatadisplay
(a)textnotation; (b)graphicalnotation
ThesedataarebeingsenttothecentralservereitherviaWi-Fiorcellularnetworksforstorageandanalysisatthesametime.Figure4showsthereceiveddatafromthesmartphonedisplayedontheserver.Theserveralsosavesdatatoatextfileinthedesignateddirectoryfordataanalysis.
Figure4 Receivedreal-timeaccelerationdataonserver
Anaxisvaluerepresentationdependsontherawsensordataandthisrawdatacoulddifferfromthesensors.Thereare3axesprovidedfromthesensorandeachsetofdataneedstobeinterpreted.Forthisparticulardeviceusedinthispaper,x-axisdatabetween-60and-50representsLEFT,between+50and+60representsRIGHT.Thisruleappliessimilarlytotheothertwoaxes.Thisdiffersfromothersensorswherethedataoutputofaccelerationisnormallyrepresentedintermsofm/s2.However,atranslationalgorithmsharesthesameidea.Figure5istheresultoftranslatingtheaccelerometerdatabasedonaccelerometermovements.
Figure5 Accelerometerdatatranslation
ThistypeoftheaccelerometertranslationwasextendedtotheSnakeGamesampleprovidedbyAndroidDevelopers[9].Theoriginalgameusestouchscreeninputstocontrolthesnake.ThetouchscreeninputswerereplacedbyaccelerometermovementstoprovidedatainLEFT,RIGHT,UPandDOWN.Thedataanalysiswasdoneonthephoneitselffortestpurposes.Figure6showsthemovementofthesnakeonthephonethatiscontrolledbyaccelerometerdatafromtheMSP430eZ430-RF2560.
Figure6 RemotecontrollingSnakeGame
Thisexampleemphasizesthataccelerometerdatacanbeadaptedforthepatientmovementdetectionsystem.Multipleaccelerometerscouldbeimplementedtoproducemoreadvancedmovementanalysis.
3.2 TemperatureSensorDataCollection
Atemperaturesensormonitoringthereal-timeroomtemperatureisusedtoperformtheexperiment.Theprocedureoftheexperimentresemblestheprevioussectionbutwiththedifferentdatainterpretation.Inthisparticularexperiment,aheatgunwasusedtoheatuporcooldownthesensorfortestingpurposesasshowninFigure7.Similartothepreviousaccelerometerapplication,Figure8(a)showsthetextnotationofthereceiveddatainreal-timeandFigure8(b)showsthegraphicalnotationofthereceiveddatainreal-time.Particularlyinthegraphicalnotationoutput,weprovideawarningmessageifthetemperatureexceedsmorethan35degreesCelsius.Also,thegraphicalnotationhasarangeofbetween0degreesCelsiusto50degreesCelsiusforthisdemonstration.
Figure9showstheserverdisplayingthereceiveddatafromthesmartphone.Itdeliverssimilaroutputscomparedtotheaccelerometerdemonstrationandalsosavesittoatextfile.
Figure7 Testingtemperaturesensordatatransmission
Figure8 Receivedreal-timetemperaturedatadisplay
(a)textnotation; (b)graphicalnotation
Figure9 Receivedreal-timetemperaturedataonserver
3.3 Electrocardiography(ECG)DataCollection
TheECGsignalisanimportantpartofapatientmonitoringsystem.Currently,ECGmachinesaredependentonwiredconnectionswhichlimittheirdatamobility.OursystemusingtheBluetoothprotocolforECGsignalcollectionsgreatlyenhancesthemobility.ThisECGsignalisalsosentsimultaneouslytotheserverviaawirelessInternetconnectionthroughthesmartphoneinreal-time.Figure10showsthedisplayofreceivedECGsignalonthesmartphoneandFigure11showsthesameresulttransmittedtotheserverinthetextformat.
Figure10 Receivedreal-timeECGdataingraphicalnotation
Figure11 Receivedreal-timeECGdataonserver
Heart-beatrate(BPM)canbedeterminedafteranalysisofthedataeitheronthesmartphoneortheserver.Inthisparticularexample,itrepresentsapatient’sstableconditionwithanormalheart-beatrateatapproximately72BPM.Thistypeofdatacanbediagnosticallyvaluableandeasilytransmittedforconsultationswithdistantexperts.
3.4 OverallDataTransmissionRate(DTR)
TheDataTransmissionRate(DTR)isanotherimportantpartofthesystemconsideringthedatasize.Inoursystem,DTRdependsonthemicrocontroller,theBluetoothtransmitterandthewirelessInternetconnectionspeed.AnUARTconnectionbetweenthesensorandmicrocontrollerisestablishedatthebaudrateof115200bpswhichachievesacommunicationbandwidthupto15KB/s.Thisemphasizesthatoursystemiscapableofthedatatransmissionbyintegratingmultipletypesofsensorsforabodysensornetworksystemthatcanbeimportantforpatientmonitoring,real-timedataanalysisanddiagnosis.
4 CONCLUSIONS
Inthis
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