Home Technique Satellite Communications

Satellite Communications



Definitionandintroduction

Satellitecommunications:Useartificialearthsatellitesasrelaystationstorelayradiowaves,therebyachievingcommunicationbetweentwoormoreearthstations.

Artificialearthsatellitesareclassifiedintoactiveartificialearthsatellitesandpassiveartificialearthsatellitesaccordingtowhethertheyhavethefunctionofamplifyingradiosignalsandtransmittingfunctions.Sincethesignalsreflectedbypassiveartificialearthsatellitesaretooweaktobeofpracticalvalue,peoplearedevotingthemselvestoresearchonactiveartificialearthsatelliteswithfunctionsofamplification,frequencyconversionandforwarding—communicationssatellitestorealizesatellitecommunication.Amongthem,thegeosynchronoussatellitewhoseperiodoforbitingaroundtheearth'sequatorisequaltotheperiodoftheearth'srotationhassuperiorperformance,andcommunicationusingsynchronoussatelliteshasbecomethemainsatellitecommunicationmethod.Low-orbitsatellitesthatdonotoperateingeosynchronousorbitsaremostlyusedinsatellitemobilecommunications.

Synchronoussatellitecommunicationisacommunicationsatellitethatorbitstheearthinacircularorbitabout36000kmabovetheearth’sequator.Theyarerelativelystationary,sotheyarecalledgeostationarysatellites,fixedsatellitesorgeostationarysatellites,andtheirorbitsarecalledgeosynchronousorbits(GEO).

Communicationscarriedoutonthegroundusingthemicrowaverelaycommunicationsystem,duetoline-of-sightpropagation,onaverageevery2500kmassumingthatthereferencecircuitpasses54relaytransfersperspanofapproximately46km.Ifthecommunicationsatelliteisusedforrelay,thecommunicationwithagrounddistanceofmorethan10,000kilometerscanbeconnectedbyonehopthroughthecommunicationsatellite(fromthegroundtothesatellite,andthenfromthesatellitetothegroundisonehop,includingtworelays),andTherelaydistanceofradiowavetransmissionisabout40,000kilometers,asshowninFigure1.

Abriefhistory

Theideaof​​usingartificialearthsatellitesingeosynchronousorbitsasrelaystationsforcommunicationontheearthisbasedontheBritishphysicistACClarke(ArtherC.Itwasproposedinthearticle"Extra-EarthRelay"publishedintheWorldMagazine,anditbecamearealityinthe1960s.

Beforetheadventofsynchronoussatellites,variouslow-orbitsatelliteswereusedforscientificexperimentsandcommunications.Theworld'sfirstartificialsatellite"Satellite1"wassuccessfullylaunchedbytheSovietUniononOctober4,1957andorbitedtheearth.Theearthreceivedradiowavesfromanartificialsatelliteforthefirsttime.

InAugust1960,theUnitedStateslaunchedthealuminum-coatedballoonsatellite"Echo1"withadiameterof30mintoacircularorbitabout1600kminheightforcommunicationexperiments.Thisistheworld'searliestso-calledpassiverelaytestwithoutusinganamplifier.

TheUnitedStateslaunchedthelow-orbitsatellite"Relay1"onFebruary13,1962.OnNovember23,1963,thestarachievedthefirsttelevisionbroadcastacrossthePacificbetweenJapanandtheUnitedStates.Atthistime,itcoincidedwiththeassassinationofUSPresidentJ.F.Kennedy.ThenewswastransmittedtoJapanviasatelliteandbroadcastonTVnews.Thelong-distancereal-timetransmissionofsatellitesleftadeepimpressiononpeopleandgreatlyimprovedthestatusofartificialsatellitesincommunications.

Theworld’sfirstsynchronouscommunicationssatellitewasthe"Synchronous2"satellitelaunchedbyNASAinJuly1963.Ithasaninclinationangleof30°totheequatorialplaneandmovesinafigureofeightrelativetotheground.Therefore,itcannotbecalledageostationarysatellite,anditisusedforcommunicationservicesforthefirsttimeintheAtlanticOcean.The"Synchronous3"satellitelaunchedinAugust1964wasfixedneartheinternationaldatelineoverthePacificequatorandwastheworld'sfirstgeostationarysatellite.InOctober1964,thelivebroadcastofthe(Tokyo)OlympicGameswasbroadcastbythestar.Sofar,satellitecommunicationisstillintheexperimentalstage.OnApril6,1965,thefirstsemi-experimentalandsemi-practicalgeostationarysatellite"MorningBird"waslaunchedforcommercialsatellitecommunicationsbetweenEuropeandtheUnitedStates.Sincethen,satellitecommunicationshaveenteredapracticalstage.

Coverage

GeostationaryEarthOrbit(GEO)Satellite

GlobalcoverageofGeostationaryEarthOrbit(GEO)satelliteforfixedsatellitecommunicationsservices,withanorbitheightofapproximately36000km,inacircularorbit,aslongasthreeuniformlydistributedsatellitesseparatedby120°cancoverthewholeworld.TheIntelsatI-IXgenerationsatelliteoftheInternationalSatelliteCommunicationsOrganization.Itisthebestexampleofglobalcoverage,whichhasbeendevelopedtotheninthgeneration.

Thesatelliteactsasarelaystationintheair,thatis,amplifyingtheelectromagneticwavesentfromtheearthstationandthensendingitbacktoanotherearthstation.Theearthstationisthelinkformedbythesatellitesystem.Sincethegeostationarysatelliteis36,000kilometersabovetheequator,itstimetoorbittheearthexactlycoincideswiththerotationoftheearth(23hours,56minutes,4seconds),anditlooksasifitisstationaryfromtheground.Threesatellitesseparatedby120degreescancovertheentireequatorialcircumference.Therefore,satellitecommunicationiseasytorealizetransoceanicandintercontinentalcommunication.Themostsuitablefrequencyforsatellitecommunicationisthe1-10GHzfrequencyband,thatis,themicrowavefrequencyband.Inordertomeetmoreandmoredemands,newfrequencybandshavebeenstudiedandapplied,suchas12GHz,14GHz,20GHzand30GHz.

Mobilesatellitecommunications

Inmarsat,aglobalmobilesatellitecommunicationssystem,isamobilesatellitecommunicationssystemwithglobalcoverage.Itoperatesthird-generationmaritimecommunicationssatellites,whicharedistributedintheAtlanticOcean.Intheeasternandwesternregions,theIndianOceanandthePacificregions,thefourth-generationInmarsat-4satelliteshavelaunchedtheirfirstsatelliteinMarch2005,andanothersatelliteisalsoreadytobelaunched.Theyarefixedat64respectively.Eand53.W,withaglobalbeam,19widespotbeams,228narrowspotbeams,usingadigitalsignalprocessor.Therearechannelselectionandbeamformingfunctions.

Thelow-orbitmobilecommunicationsatelliteswithglobalcoverageinclude"Iridium"andGlobalstar.The"Iridium"systemhas66stars,dividedinto6orbits,eachofwhichhas11Thesatelliteshaveanorbitalheightof765km.Thelinksbetweenthesatellites,betweenthesatellitesandthegatewayandthesystemcontrolcenterusethekaband,andthelinksbetweenthesatelliteandtheuserusetheL-band.AttheendofJune2005,thenumberofIridiumsatelliteusersreached127,000.DuringthedisasterofHurricaneKatrina,theservicetrafficofIridiumsatelliteincreasedby30times,andthesatellitephonecommunicationvolumeincreasedby5times.

Globalstariscomposedof48satellites,distributedin8circularinclinedorbitplanes,withanorbitheightof1389kmandaninclinationangleof52degrees.Thenumberofusershassteadilyincreasedyearbyyear,andthecosthasdecreased.In2005,thenumberofvoiceusersincreasedcomparedwith2004.

Multipleaccessmethod

Multipleaccessmeansthatthesamesatellitetranspondercanbeconnectedtomultipleearthstations.Multipleaccesstechnologydividesthesignalandrecognizesthesignalaccordingtothecharacteristicsofthesignal.,Thesignalusuallyhasthecharacteristicsoffrequency,time,spaceandsoon.Commonlyusedmultipleaccessmethodsforsatellitecommunicationsincludefrequencydivisionmultipleaccess(FDMA),timedivisionmultipleaccess(TDMA),codedivisionmultipleaccess(CDMA)andspacedivisionmultipleaccess(SDMA).Inaddition,frequencyreusetechnologyisalsoItisamultipleaccessmethod.

Inthemicrowavefrequencyband,theworkingfrequencybandoftheentirecommunicationsatellitehasawidthofabout500MHz.Inordertofacilitateamplificationandtransmissionandreducemodulationinterference,severaltranspondersaregenerallyinstalledonthesatellite.Satellitecommunicationswithaworkingfrequencybandwidthof36MHzor72MHzforeachtranspondermostlyusefrequencydivisionmultipleaccesstechnology.Differentearthstationsoccupydifferentfrequencies,thatis,differentcarriersareused.Itismoresuitableforpoint-to-pointlarge-capacitycommunication.Timedivisionmultipleaccesstechnologyhasbeengraduallyadopted,thatis,eachearthstationoccupiesthesamefrequencybandbutdifferenttimeslots.Comparedwithfrequencydivisionmultipleaccess,ithasaseriesofadvantages.Thestationsignalsareseparated,suitablefordigitalcommunication,andcanbeallocatedondemandaccordingtochangesinbusinessvolume.Newtechnologiessuchasdigitalvoiceplug-incanbeusedtoincreasethecapacityby5times.Anothermultipleaccesstechnologymakescodedivisionmultipleaccess(CDMA),thatis,differentearthstationsoccupythesamefrequencyandthesametime,buthavedifferentrandomcodestodistinguishdifferentaddresses.Itadoptsspreadspectrumcommunicationtechnology,hastheadvantagesofstronganti-interferenceability,betterconfidentialcommunicationability,andflexiblevoicechannelscheduling.Itsshortcomingsmakethespectrumutilizationratelow.Itismoresuitableforsystemswithsmallcapacity,widedistribution,andcertainconfidentialityrequirements.

Thecompositionofthesatellitecommunicationsystem

Thesatellitecommunicationsystemincludesalltheequipmentforcommunicationandguaranteeingcommunication.Generally,itconsistsoffourparts:spacesubsystem,communicationearthstation,trackingtelemetryandcommandsubsystem,andmonitoringmanagementsubsystem,asshowninthefigure.

1.Trackingtelemetryandcommandsubsystem

Thetrackingtelemetryandcommandsubsystemisresponsiblefortrackingandmeasuringsatellitesandcontrollingthemtoaccuratelyenterthedesignatedpositiononthegeostationaryorbit.Afterthesatelliteisinnormaloperation,theorbitpositioncorrectionandattitudemaintenanceofthesatelliteshouldbecarriedoutonaregularbasis.

2.Monitoringandmanagementsub-system

Themonitoringandmanagementsub-systemisresponsibleforthedetectionandcontrolofthecommunicationperformanceofthefixed-pointsatellitebeforeandaftertheserviceisopened,suchasthepowerofthesatellitetransponder,thegainofthesatelliteantenna,andthepowertransmittedbyeachearthstationThebasiccommunicationparameterssuchasradiofrequencyandbandwidtharemonitoredtoensurenormalcommunication.

3.Spacesubsystem(communicationsatellite)

Communicationsatellitesmainlyincludecommunicationsystems,telemetrycommanddevices,controlsystems,andpowersupplydevices(includingsolarcellsandstoragebatteries).

Thecommunicationsystemisthemainbodyofthecommunicationsatellite.Itmainlyincludesoneormoretransponders.Eachtranspondercanreceiveandforwardsignalsfrommultipleearthstationsatthesametime,thusactingasarelaystation.

4.Communicationearthstation

Thecommunicationearthstationisamicrowaveradioreceivingandtransmittingstationthroughwhichusersaccesssatellitelinesforcommunication.

Introductiontofrequencybandsynchronoussatellitecommunicationservice

Thefrequencybandsynchronoussatellitecommunicationserviceisdividedintofixedsatellitecommunicationservice(FSS)andsatellitemobilecommunicationservice(MSS).Thefrequencybandsallocatedtothemarealsodifferent.FSSusesC-bandandKu-band.MSSusestheLfrequencyband(seesynchronoussatellitemobilecommunications),andmostoftheKutranspondersworkingintheKufrequencybandareoriginallyspotbeams.Sincethe1990s,theKustaroftheInternationalTelecommunicationsSatelliteOrganization(INTELSAT,abbreviatedasIS)iscalledISK,whichprovidesawiderrangeofservices.Regionalbeamstomeetdemand.ThefrequencydivisionsoftheCandKubandsofFSSareasfollows(theupperlineisthefrequencyusedbytheearthstationtothesatellite,andthelowerlineisthefrequencyusedbythesatellitetotheearthstation).

①Cband(MHz)

Upstream5925~6425Bandwidth500MHz

Downstream3700~4200Bandwidth500MHz

FortheextensionofFSSThefrequencyspectrumhasbeenadjustedfromJanuary1,1984to:

Upstream:Area15725~7075Bandwidth1350MHz

Area2and35850~7075Bandwidth1225MHz

3400~4200totalbandwidth

Downlink:Zone1,2,and3

4500~4800l100MHz

②Kufrequencyband(GHz)

4500~4800l100MHz

p>

Uplink:Zone1,2,and3,14.0~14.25Bandwidth250MHz

14.25~14.5,Bandwidth250MHz

Downlink:Zone1,2,and310.95~11.20Bandwidth250MHz

11.45~11.7Bandwidth250MHz

Section211.7~11.95Bandwidth250MHz

11.95~12.2Bandwidth250MHz

No.3Zone12.2~12.5Bandwidth300MHz

Thefirstandthirdzones12.5~12.75Bandwidth250MHz

Accordingtothefrequencyallocationofthe1992InternationalAdministrativeRadioConference(WARC-92),theInternationalTelecommunicationsSatelliteOrganizationThenewlyallocated13.75~14.0GHz(uplink)withabandwidthof250MHzcanbeusedonJanuary1,2000tomeettheneedsofdevelopment.

ThetransmissionofC-bandisrelativelystable,andtheequipmenttechnologyismature,butitiseasytointerferewiththegroundmicrowavesystemofthesamefrequencyband.Theuplinkofsatellitecommunicationinterfereswiththe6GHzmicrowavesystem,andthedownlinkisinterferedbythe4GHzmicrowavesystem.Thisrequirespre-coordinationandcorrespondingshieldingmeasurestosolveit(seesatellitecommunicationsysteminterferencecoordination).TheKubandtransmissionisattenuatedbyrainandfog.,NotasstableastheC-band,especiallyinareaswithheavyrainfall.Ifsufficientmarginisleftinthecalculationoftheuplinkanddownlink,andtheuplinkpoweradjustmentfunctionisequipped,satisfactoryresultscanalsobeobtained.TheKufrequencybandhasabundantspectrumresourcesandhaslittlemutualinterferencewithterrestrialmicrowavesystems,anditsapplicationisverypromising.

Attheendofthe20thcenturyorthebeginningofthe21stcentury,theCandKufrequencybandswillbecrowded.FSSwilldevelopservicesintheKafrequencybandfrom20GHzto30GHz.Thefrequencyis:

Uplink(GHz)29.5~30Bandwidth500MHz

Downlink(GHz)19.7~20.2Bandwidth500MHz

Satellitecommunicationmethod

SatellitecommunicationmethodThesatellitecommunicationsystemuseswhentransmittingordistributinginformationTheworkingmethodiscalledsatellitecommunicationmethod.

Internationalsatellitecommunicationshaveshiftedfrombeingbasedonanalogfrequencydivisiontodigitaltimedivision.Digitalsatellitecommunicationmethodsinclude120Mbit/sdigitalvoiceinsertion(DSI)timedivisionmultipleaccess(TDMA/DSI),ortimedivisionmultipleaccesswithoutvoiceinsertion(DNI),andon-boardswitchingtimedivisionmultipleaccess(SS-TDMA);Therearealsoalargenumberofsatellitedigitalchannel(IDR)methodsbasedon2.048Mbit/sand1.544Mbit/s.Addingdigitalcircuitmultiplexingequipment(DCME)cangenerallyexpandthecapacityby3to4times,upto5times.The2Mbit/sIDRbears30circuits,andthesmallercapacityIDRhas1.024Mbit/s(16circuits)and512kbit/s(8circuits).Thedigitalprivatelineservice(IBS)fordedicatedcommunicationshasdevelopedrapidly,andtheKu-bandreachingtheISDNqualityleveliscalledthesuperdigitalprivatelineservice(su-perIBS).Thereisstillamarketforthesparserouting(VISTA)businessmode,amongwhichthereisamodeofon-demandallocationofmultipleaccess(DAMA)functionscalledthesuperthinrouting(su-perVISTA)mode.TheSPADEmethodofnon-centrallycontrolledrareroutinghasbeeneliminatedduetocomplexequipment.Thepolarizationmodeofinternationalsatellitecommunicationsisdoublecircularpolarization.

DomesticsatellitecommunicationmethodsgenerallyimitatetheC-bandandKu-bandusedbyinternationalsatellitecommunications,andKa-bandisalsouseful.ThegeneralTDMAmethodisbelow60Mbit/s,andthereareSS-TDMAandtransponderfrequencyhoppingTDMAmethods,satellitedigitalchannel(IDR/DCME)methodswithdigitalcircuitmultiplexingequipment,andadaptivedifferentialpulsecodingSatellitedigitalchannel(IDR/ADPCM)mode.Becausetheanalogfrequencydivisionmultipleaccess(FDMA)technologyismature,itisstillinuse.Thecall-basedsparserouting(VISTA)methodisusedmoreinthecountry,includingsinglecarriersinglechannel/syllabiccompandingfrequencymodulation/on-demandmultipleaccess(SCPC/CFM/DAMA)methodandsinglecarriersinglechannel/4phaseshiftkeying/on-demandmultipleaccess(SCPC/QPSK/DAMA)modeandlowerrateTDMAmode.Themarketforverysmallantennaearthstationsystemsisverylarge.Itisastarnetworkwithdatatransmissionasthemainpartandvoicetransmission.Therearemanyformatsandspeedsforuserstochoosefrom.Thepolarizationmodeofdomesticsatellitecommunicationisgenerallylinearpolarization,andcircularpolarizationisalsousedinsomecases.

InternationalanddomesticsatelliteTVtransmissionadoptsanalogFMsystem.TheinternationalTVprogramexchangeusestheglobalbeamtransponderandtheAstandardearthstation,anditsreceptionqualityisbetter.Onetranspondercantransmittwochannelsof20MHzbandwidthTVprograms.DomesticandregionalsatelliteTVtransmissionsuseadomesticorregionalbeamtranspondertoturnononlyoneTV,andtakethefullpowerofthetransponder,sothatalargenumberofsmallTVsingle-receivingearthstationsareeasytoreceive.

Thecompositeanalogcomponent(MAC)systemisalsoinuse.Atwo-channelTVsysteminwhichtwochannelsofTVaretransmittedbyonecarrierisusedasafixed-pointTVprogramtransmissionmethod,whichcansavespacesectioncosts,soitisalsoadopted.High-qualitysatellitedigitalTVtransmissionandhigh-resolutionsatelliteTVtransmissionarebeingtested.AtranspondertransmissionmethodofdigitalTVwithmultiplecompressioncodingisabouttoappear.

Thesatellitevideoteleconferencebusinessismainlybasedon2Mbit/1.5Mbit.Then×384kbiversionhasalreadycomeout,anditisexpectedthatthem×64kbitversionwillalsohaveitsadvantages.

ThesmallC/Kuearthstation,whichisinstalledonaspecialvehicleandiseasytocarry,iswidelyusedinvariousdomesticandinternationaloccasions.ItcanbeusedtotransmitTV,telephone,fax,telegraphanddata,etc.,Mostlyusedinemergencysituations.

Features

Comparedwithothercommunicationmethods,satellitecommunicationhasthefollowingcharacteristics:

①Thecommunicationdistanceislong,andthecosthasnothingtodowiththecommunicationdistance..ItcanbeseenfromFigure16.2thatusinggeostationarysatellites,themaximumcommunicationdistanceisabout18100km.Moreover,theconstructioncostandoperatingcostdonotchangeduetothedistancebetweenthecommunicationstationsandtheharshnaturalconditionsonthegroundbetweenthetwocommunicationstations.Thishasobviousadvantagesovermicrowaverelay,cables,opticalcables,andshort-wavecommunicationsinlong-distancecommunications.

②Itworksinbroadcastmodeandcancarryoutmulti-addresscommunication.Generally,othertypesofcommunicationmethodscanonlyachievepoint-to-pointcommunication,whilesatellitesworkinbroadcastmode.Anearthstationcanbesetupatanypointintheentireareacoveredbythesatelliteantennabeam,andtheseearthstationscanshareacommunicationsatellite.Toachievebilateralormultilateralcommunication,thatis,multiple-accesscommunication.Inaddition,anin-orbitsatelliteisequivalenttolayingcountlessinvisiblecircuitsthatcanreachanypointinacertainarea.Itprovideshighefficiencyandflexibilityforthecompositionofthecommunicationnetwork.

③Largecommunicationcapacity,suitableforavarietyofbusinesstransmission.Satellitecommunicationsusemicrowavefrequencybands,andtheusablefrequencybandsareverywide.Generally,thesatellitebandwidthoftheCandKubandscanreach500-800MHz,andtheKabandcanreachseveralGHz.

④Itcanbemonitoredspontaneously.Generally,thesenderearthstationcanalsoreceivethesignalsentbyitself,sothatitcanmonitorwhetherthemessagesentbythestationiscorrectandthequalityofthetransmission.

⑤Seamlesscoveragecapability.Usingsatellitemobilecommunications,itispossibletoestablishaglobalsea,land,andairintegratedcommunicationsystemwithoutbeingrestrictedbygeographicalenvironment,climateconditionsandtime.

⑥Theabilitytoconstructwide-areacomplexnetworktopologies.Thehighpowerdensityandflexiblemulti-pointbeamcapabilityofsatellitecommunicationscombinedwithon-boardswitchingprocessingtechnologycanprovideawiderangeofpoint-to-pointandmulti-point-to-multipointcomplexnetworktopologiesatanexcellentprice-performanceratio.

⑦Safetyandreliability.Factshaveprovedthatinthefaceofearthquakerelieforinternationalsubmarine/opticalcablefailures,satellitecommunicationisanunparalleledimportantmeansofcommunication.Eveniftherearemoreperfectself-healingbackuporcircuitousterrestrialfiberopticcableandsubmarinefiberopticcablenetworksinthefuture,wisenetworkplannersanddesignerscanstillunderstandtheimportanceandimportanceofsatellitecommunicationsasthebasiclinkofthetransmissionmediumemergencybackupandinformationhighwayhybridnetwork.necessity.

Advantagesofsatellitecommunication

Themainadvantagesofsatellitecommunicationaresummarizedasfollows:

1.Longcommunicationdistance:Thelongestcommunicationdistanceinthesatellitebeamcoveragearea13000kilometers;

2,notrestrictedbyanycomplicatedgeographicalconditionsbetweenthetwopointsofcommunication;

3,notaffectedbyanynaturaldisastersandman-madeeventsbetweenthetwopointsofcommunication;

4.Thecommunicationqualityishighandthesystemreliabilityishigh.Itisoftenusedasasupportsystemduringthesubmarinecablerepairperiod;

5.Thelongerthecommunicationdistance,thelowertherelativecost;

6.ItcanrealizethetransmissionanddatainteractionofTVprograms,radioprogramsandnewsinalargearea;

7.Itishighlymobileandcanrealizesatellitemobilecommunicationandemergencycommunication;

8.Thesignalconfigurationisflexible,whichcanprovidehundreds,thousandsoreventensofthousandsofvoicechannelsandmediumandhigh-speeddatachannelsbetweentwopoints.

9,easytoachievemulti-addresstransmission;

Satellite Communications

9.p>

10.Itiseasytorealizeavarietyofbusinessfunctions.

Disadvantagesofsatellitecommunication

Talkingaboutsomanyadvantagesofsatellitecommunication,satellitecommunicationalsohasmanydisadvantages!

1.Longtransmissiondelay:500Timedelayofmillisecondto800milliseconds;

2,itisdifficulttorealizesatellitecommunicationinhighlatitudeareas;

3,inordertoavoidmutualinterferencebetweensatellitecommunicationsystems,satellitesinsynchronousorbitsThereisalimittothenumberofsatellites,andthenumberofsatellitescannotbeincreasedwithoutlimit;

4.Thesolartransitandeclipsephenomenainspacewillinterruptandaffectsatellitecommunications;

5,Thesuccessrateofsatellitelaunchis80%,andthelifetimeofthesatelliteisseveraltotenyears;thedevelopmentofsatellitecommunicationsrequireslong-termplanningandtheriskoflaunchfailure.

Thecharacteristicsofsynchronoussatellitecommunication

Themainadvantagesare:①Thecommunicationdistanceislong,andthecommunicationdistanceofonehopinthesatellitebeamcoverageareaisabout13×103km(usingtheglobalbeam,Theelevationangleoftheearthstationtothesatelliteisabove5°);②Itisnotrestrictedbyanycomplicatedgeographicalconditionsbetweenthetwopointsofcommunication;③Itisnotaffectedbyanynaturaldisastersandman-madeeventsbetweenthetwopointsofcommunication;④OnlyonehopthroughthesatelliteItcanreachtheotherparty,sothecommunicationqualityishigh,andthesystemreliabilityishigh.Itisoftenusedasthesupportsystemduringthesubmarinecablerepairperiod;⑤Thelongerthecommunicationdistance,thelowerthecost;⑥ItcanrealizeTVprograms,radioprogramsandnewsinalargearea.Itissuitableforbroadcastanduser-typeservices,aswellasinteractivedatatransmissionandevenvoicetransmissiondirectlytotheuser’sofficebuilding;⑦highflexibility,canrealizesatellitemobilecommunicationandemergencycommunication;⑧flexibility,canbebetweentwopointsProvidehundreds,thousandsoreventensofthousandsofvoicechannels,providetensofmegabits(Mbit/s)oreven120Mbit/smediumandhigh-speeddatachannels,andcanalsoprovideatleastonevoicechannelor1.2kbit/s,2-4kbit/sdatachannel;⑨easytorealizemulti-addresstransmission;⑩hasthefunctionoftransmittingmultipleservices.

Themaindisadvantagesare:①Thetransmissiondelayislarge.Thesatelliteearthstationcommunicatesthroughtheforwardingofacommunicationsatelliteabout36,000kmabovetheequator.Dependingonthelatitudeoftheearthstation,theone-wayspacedistanceofonehopis72,000~80,000km.Theradiowavepropagatingataspeedof300,000km/scanreachtheoppositeearthstationafteraspacetransmissiondelayof240msto260ms.Inaddition,thedelaywillincreaseduetotheprocessingtimeofthedigitalsignalbytheterminalequipment.AccordingtotherecommendationoftheInternationalTelegraphandTelephoneConsultativeCommittee(Rec.114),one-waytransmissionshouldnotexceed400ms.Foracall,ittakes500msto800msforthecallertoheartheotherparty'simmediatereply,whichisacceptableandaccustomedtothecaller.However,theleakagecausedbytheimbalanceofthetwo/four-wirehybridcoilsofthetwopartiesintheconversationwillcauseunbearableechoes.Therefore,echocancellersmustbeinstalledwithoutexception.②Atlatitude75south.Inhighlatitudesaboveandabove75°northlatitude,itisdifficulttorealizesatellitecommunicationbecausetheelevationangleofthesynchronoussatelliteislessthan5°.Generallyspeaking,thegroundatthelatitudebelow70°andtheaircraftbelow80°canbeestablishedviathesynchronoussatellite.Communication.③Thelocationofthesynchronousorbitislimited,andthenumberofsatellitesandthedistancebetweensatellitescannotbeincreasedindefinitely.④Everyyear,thereareunavoidableinterruptionsofsolartransitandstareclipsesthatmustbetakenthrough.⑤Itisnecessarytohavealong-termplanforsatellitedeployment.Theservicelifeofasatelliteisgenerallyseveraltotenyears,andthedesignandproductioncycleofasatelliteislong.Itisnecessarytoarrangeasuccessorsatelliteasearlyaspossible.However,thesatellitelaunchsuccessrateisabout80%onaverage,socertainrisksmustbeassumed.

Relatedcategories

Thedevelopmentofnewsatellitecommunicationtechnologiesisendless.Forexample,theverysmall-apertureantennaearthstation(VSAT)systemandthemobilesatellitecommunicationsysteminlow-mediumorbithavereceivedextensiveattentionandapplications.Satellitecommunicationisalsoanimportantpartofthefutureglobalinformationhighway.Itisknownforitswidecoverageandlargecommunicationcapacity.Theadvantagesoflong-distancecommunication,nogeographicalenvironmentrestriction,excellentquality,andhigheconomicbenefitswerefirstappliedinChinain1972anddevelopedrapidly.Togetherwithopticalfibercommunicationanddigitalmicrowavecommunication,ithasbecomethebackboneofcontemporarylong-distancecommunicationinChina.

Sincesatellitecommunicationisnotrestrictedbygeographicalconditionsandhasflexiblemobility,itstilldevelopsinnovativelybasedonitsadvantages.However,itisalsochallengedbytherapiddevelopmentofopticalfibercommunications.Ithasalargercapacityandhighertransmissionratethansatellitecommunications.Manytransoceaniccommunicationshavebeenreplacedbysubmarineopticalcables,andsimilarsituationsexistonlandtrunklines.Inthemidtolate1990s,satelliteTVlivebroadcasting(DBs-DirectBroadcastSatelliteorDTH-DirectToHome),satellitesoundbroadcasting,satellitemobilecommunications,andsatellitebroadbandmultimediacommunicationsbecamethefournewdevelopmenttrends.

FixedSatelliteCommunications

TheIntelsatseriesoftheInternationalSatelliteCommunicationsOrganizationhasbeendevelopedtotheninthgeneration.Thebusinessvolumehasbasicallygrownsteadilyfrom1996to2004.Thetotalglobalrevenuein2004was94BillionUSdollars,theUnitedStatesisexpectedtoreachonemillionusersin2006,andVSATapplicationswillincreaseby15%-20%annually.Broadbandaccessandmultimediaservicesaregraduallydeveloping.Ka-bandwillbecomethemainstreamofbroadbandservices.LeadingbroadbandservicesareCanada’stelecommunicationssatellites.Company(Telesat),WildBlueCompanyoftheUnitedStatesandShinSatelliteCompanyofThailand.

Intermsofsatelliteperformance,increasethetransmissionpower,increasetheEIRPvalue,increasethenumberofsatellitetransponders,increasebandwidth,reducecosts,andreducethesizeandcostofgroundterminalequipment.TheAniklaunchedbyCanadaonJuly18,2004.TheF2satellitehasatotalof114transponders,50ofwhichareintheKa-band.TheIpstarsatellitelaunchedonAugust11,2005inThailandhas114transpondersandacommunicationcapacityof45Gbit/s.Itiscurrentlytheworld’slargestcommercialcommunicationssatelliteinEurope.Largersatellitesarebeingdevelopedand250transpondersarebeinginstalled,whicharescheduledtobelaunchedin2008.

Thesatelliteusesdigitalsignalprocessorstoimprovesignalexchangecapabilities,reducegroundequipment,establishearthstationswithtelemetry,remotecontrol,trackingandmonitoringfunctions,andnetworkmanagementfunctionstorealizesatellitedynamiccontrolandmanagement.Satellitebroadbandcommunicationisusedtobroadcastlivehigh-definitionTV,andconnecttotheInternettodevelopnetworkTV.

Mobilesatellitecommunications

Mobilesatellitecommunicationscanbeglobalorregional,usingmediumandlow-orbitsatellitesglobally.Geostationaryorbitcommunicationsatellitesareusedregionally.RegionalmobilecommunicationsatellitesincludeIndonesia’sAsianCellularSatellite(Aees),alsoknownasGarula-1,launchedonFebruary12,2000.Itistheworld’sfirstregionalmobilecommunicationsatellite.Itisapersonalgeostationaryorbitpersonalmobilecommunicationsatellitewith140spotbeamsand11,000simultaneousvoicechannels.ThebeamcoverstheAsia-Pacificregion,whichaccountsfor60%oftheworld’spopulation.TheUnitedArabEmirateslaunchedThuraya_1and-2satellitesonOctober20,2000andJune10,2003,respectively.Eachsatellitehasacapacityof13,750simultaneouscalls.ItcoversEuropeandAsia.,Non-106countries.

InternationalMobileSatelliteCorporationlaunchedthefourth-generationInmarsat-4satelliteinMarch2005.Ithasaglobalbeam,19widespotbeamsand228narrowspotbeams,andtwosatellitessupporttheInmarsatsystem.Mostofthebusiness.ItwillintroduceaseriesofnewservicesoftheBroadbandGlobalAreaNetwork(BGAN)withatransmissionrateof432kbit/s.ThesatellitewilluseanL-bandantennaandadigitalsignalprocessor(DSP).TheDSPhaschannelselectionandbeamformingfunctionstogeneratebroadbandChannelmatchingpowerandbandwidthresources,DSPcanalsotailorthesatellitecoverageandadjustthebeamtomeettherequirementsofcapacityandbusinesstypes,andcanalsohandlethefailureofsolid-statepoweramplifiersandlownoiseamplifiers.ThebroadbandglobalareanetworkwilltransmitInternet,intranet,video-on-demand,videoconferencing,fax,e-mail,telephoneandlocalareanetworkaccessservices.

Thebusinessofglobalmobilesatellitecommunicationsinlowandmediumorbitsismainlyvoiceanddata.ItcanalsobeconnectedtotheInternettofurtherdevelopmultimediacommunications.

Thegeneraldevelopmenttrendofsatellitecommunicationislarge-capacity,high-power,high-speed,broadband,low-cost,high-transmittingfrequency,multi-transponder,multi-spotbeamandshapedbeam,whichareappliedonsatelliteProcessingtechnologyswitchingsignals,processingsignals,etc.,inthe21stcentury,directsatellitetelevision(DBS-TV),personalmobilesatellitecommunications,multimediasatellitecommunications,satelliteaudiobroadcasting,satellitenetworktelevision,etc.willbedevelopedinalargeamount.ThebusinessscopeofVSATcontinuestoexpandandpenetratesintovariousfieldsofthenationaleconomy,showingitseconomicandsocialbenefits.TheapplicationofKa-bandmakestheequipmentmorecompact,andofcourseitalsobringsseriousattenuationdefects.Theapplicationofopticalcommunicationinsatellitecommunicationhasgraduallybecomematureanddesirable.Itrequiresprecisesatellitecontroltechnology.Itisstillintheinternationalresearchanddevelopmentstageandisexpectedtoenterthepracticalstagesoon.

China’ssatellitecommunicationsindustryisalsodevelopingrapidly.OnApril12,2005,theAsia-Pacific-6(Apstar-6)satellitewaslaunched.Ithas38C-bandand14Ku-bandtransponders.In2006,itlaunchedthedirectbroadcastsatelliteSino-2(Sino-2),whichhas22Ku-bandtransponders(currentlythereisatechnicalfailure).Theapplicationfieldsofsatellitecommunicationarecontinuouslyexpanding.Inadditiontofinance,securities,postandtelecommunications,meteorology,earthquakeandotherdepartments,distanceeducation,telemedicine,emergencydisasterresponse,emergencycommunications,emergencytelevisionbroadcasting,sea,landandairnavigation,Internettelephones,televisions,etc.Willbewidelyused.China’ssatellitelaunchtechnology,theLongMarchseriesofcarrierrocketsleadtheworld,andChinahassuccessfullytestedlarge-thrust,non-polluting,non-toxicandenvironmentallyfriendlyrocketengines.ThishascreatedadvantagesforthedevelopmentofChina’slarge-scalecommunicationsatellitesandevenmannedspaceflightandlunarexplorationprojects.condition.

Chinawillmovealongthelong-termdevelopmentdirectionofintegrationofworldandearth,complementaryadvantages,andmilitary-civilianintegration.

Historicalreview

AsearlyasOctober1945,ArthurC.Clarkeproposedtheideaof​​geostationarysatellitecommunication.Inthe10thissueoftheBritish"RadioWorld"magazine,hepublishedanarticleentitled"ExtraterrestrialRelay-CanSatellitesProvideRadioCoverageonaGlobalRange?"Communicationlaidthetheoreticalfoundation.ThedevelopmentofmodernsatellitecommunicationshasconfirmedthescientificnatureofClark'svision.

Thedevelopmentprocessofsatellitecommunicationscanbedividedintothefollowingtwostages.

(1)Theexperimentalphaseofsatellitecommunications

Since1954,theUnitedStateshassuccessivelyusedthemoon,passiveballoonsatellites,andcopperneedlepassivedipolebeltsasrelaystations.PassivesatellitecommunicationtestssuchastelephoneandTVtransmissionhaveprovedtobeoflittlepracticalvalue.Itwasnotuntil1957thattheformerSovietUnionlauncheditsfirstartificialsatellite,whichmadesatellitecommunicationsentertheactivesatellitetestphase.

InDecember1958,theUnitedStatesusedanAtlasrockettolauncha150-poundlow-orbitsatelliteintoanellipticalorbit(perigee200km,apogee1700km),andlauncheditonboardTheoutputpowerofthemachineis8W,andthefrequencyis150MHz.Thesatelliteusestapetorecord,andrelaystheinformation(telephone,telegram)sentbystationAtostationBwithadelay.InOctober1960,theUSDepartmentofDefenselaunchedthe"Messenger"satelliteintoanorbitwithanaltitudeof1,000kmandaninclinationof28.3°,usingafrequencyof2GHz,andconductedalow-orbitdelaycommunicationtestsimilartotheabove.

InJune1962,NASAusedaDeltarockettosendthe"ElectricStar"satelliteintoanellipticalorbitof1060-4500km;inDecemberofthesameyear,itlauncheda"relay"satelliteandenteredWithanellipticalorbitof1270~8300km,manytelephone,TV,andfaxdatatransmissiontestshavebeencarriedoutbetweentheUnitedStates,Europe,andSouthAmerica,andtechnicalissuessuchassatellitecommunicationfrequency,attitudecontrol,telemetrytracking,andcommunicationmethodshavebeenconducted.Experimented.

Since1963,synchronoussatellitecommunicationexperimentshavebeencarriedout.InJuly1963andAugust1964,NASAlaunchedthreeSYNCOMsatellites.Thefirstonefailedtoenterthepredeterminedorbit;thesecondoneenteredatiltedorbitwithaperiodof24h;thelastoneenteredacircularshape.ThegeostationarygeostationaryorbitofChinahasbecometheworld’sfirstexperimentalgeostationarycommunicationssatellite.Itwasusedtosuccessfullycarryouttelephone,TVandfaxtransmissiontests,andinthefallof1964,itwasusedtobroadcasttheliveeventsoftheOlympicGamesheldinTokyo,JapantotheUnitedStates.Atthispoint,theexperimentalphaseofsatellitecommunicationsisbasicallyover.

(2)Thepracticalstageofsatellitecommunication

Atthesametimeasthedevelopmentofsatellitecommunicationtechnology,theorganizationresponsibleforsatellitecommunicationbusinessandmanagementhasgraduallybeencompleted.OnAugust20,1964,Inordertoestablishasingleglobalcommercialsatellitenetwork,11WesterncountriesincludingtheUnitedStatesandJapanestablishedatemporaryglobalcommercialsatelliteorganizationinWashington,USA,andofficiallynamedittheInternationalTelecommunicationSatelliteOrganization(INTELSAT,InternationalTelecommunicationSatelliteOrganization)inNovember1965.).Theorganizationlaunchedthefirstgenerationof"INTELSAT-I"(IS-I,formerlyknownas"MorningBird")intothegeostationaryorbitinApril1965,andofficiallyassumedtheinternationalcommunicationbusiness.Thismarksthebeginningofanewstageofpracticalityanddevelopmentforsatellitecommunications.

Currentstatusandprospectsofsatellitecommunicationsinmycountry

(1)Fixedservices

In1972,mycountrybegantobuildthefirstsatellitecommunicationsearthstation,whichwassuccessfulin1984Thefirstexperimentalcommunicationssatellitewaslaunchedin1985.In1985,fivepublicnetworkearthstationsincludingBeijing,Lhasa,Urumqi,Hohhot,andGuangzhouwerebuilttoformallytransmitCCTVprograms.Sincethen,internationalexportstationsinBeijing,Shanghai,andGuangzhouhavebeenbuilt,andabout25,000directinternationalsatellitelineshavebeenopened;Beijingisthecenter,andLhasa,Urumqi,Hohhot,Guangzhou,Xi’an,Chengdu,Qingdao,etc.aretheregionalcenters.Therearemorethan10,000domesticlinesinChina’smultipleearthstations.

Thedevelopmentofprivatenetworkconstructionisveryrapid,thePeople’sBankofChina,XinhuaNewsAgency,transportation,oilandgas,economyandtrade,railways,electricpower,waterconservancy,civilaviation,ChinaNationalNuclearCorporation,NationalEarthquakeAdministration,MeteorologicalAdministration,YunnanTobacco,ShenzhenStockcompanies,nationaldefense,publicsecurityandotherdepartmentshaveestablishedmorethan20satellitecommunicationnetworks,andsatellitecommunicationearthstations(especiallyVSAT)havereached10,000.

(2)SatelliteTVbroadcastingbusiness

In1984,the"Dongfanghong"satellitewassuccessfullylaunched,creatinganewerainmycountry'suseofsatellitestotransmitradioandtelevisionprograms.Asof2015,4setsofCCTV,EducationChannel,Xinjiang,Tibet,Yunnan,Guizhou,Sichuan,Zhejiang,Shandong,Hunan,Henan,Guangdong,Guangxi,Hebeiandothermorethanadozenprovincial-levelTVprogramsandmorethan40languagesBroadcastprogramshavebeentransmittedonsatellites.Thereare100,000satelliteTVterrestrialstationsandapproximately300,000TVstations(TVRO).Manysystemsusemoreadvanceddigitalcompressiontechnology.

(3)Satellitemobilecommunicationservices

Satellitemobilecommunicationmainlysolvesthecommunicationtasksbetweenvarioustargetsonland,seaandairandwithgroundpublicnetworks.AsamemberofINMARSAT,ChinahasashorestationinBeijing,whichcanprovidecommunicationservicesforthePacific,IndianOceanandAsia-Pacificregions.Inaddition,mycountryisgraduallydevelopingairbornesatellitemobilecommunicationsservices.石油、地质、新闻、水利、外交、海关、体育、抢险救灾、银行、安全、军事和国防等部门均配备了相应业务终端。现我国已进入INMARSAT的M站和C站,有近5000部机载、船载和陆地终端。

(4)未来展望

随着我国现代化建设和以多媒体为代表的信息高速公路的发展,今后10年我国卫星通信将有一个更大的发展,并将以我国自主的大容量通信卫星为主体,建立起完善、长期稳定运行的卫星通信系统。若以每年递增15%~17%计算,到2002年,卫星通信公用网开通的线路将是1996年的2.7~3倍,大、中城市将建立起大、中型卫星通信地球站约50~60座,中、小型地球站约200~300座(不包括VSAT站)。到2005年,卫星通信公用网线路将发展到数十万条。

我国今后卫星通信技术发展趋势为:

①开发新频段,提高现有频段的频谱利用率。从现有单一的C频段发展到Ku、Ka、UHF、L、S、X等频段。

②公用干线通信网向高速、数字、宽带发展,速率将达60Mbit/s、120Mbit/s和1000Mbit/s,并利用SDH和ATM,建立国家信息高速公路——天基宽带综合业务数字通信网。

③进一步发展小型化、智能化VSAT专用卫星通信网。业务也将从单一的数据或话音为主,发展为话音、数据、图文、电视兼容的综合业务。

④卫星移动通信系统将大力发展新技术,如星上大天线技术、多波束技术、星上交换、星上处理和星间链路技术、越区切换技术等。

⑤开展卫星通信网与其他异构网的互通、互联,完成异构网协议变换,网络同步与交换技术及信令呼叫接口技术等。

⑥网络管理和控制及网络动态分配处理的自动化技术。

⑦卫星通信网的网络安全、保密技术。

⑧与我国卫星通信设备产业化发展有关的生产、工艺加工技术等等。

展望21世纪,卫星通信将获得重大发展,尤其是世界上新技术,如光开关、光信息处理、智能化星上网控、超导、新的发射工具和新的轨道技术的实现,将使卫星通信产生革命性的变化,卫星通信将对我国的国民经济发展,对产业信息化产生巨大的促进作用。

相关图书

中国作者图书

版权信息

书名:卫星通信

作者:夏克文甘仲民

出版社:西安电子科技大学出版社

出版时间:2008年12月

ISBN:9787560621401

开本:16开

定价:21.00元

内容简介

《卫星通信》主要内容包括卫星通信概述、卫星通信基本技术、卫星通信链路设计、卫星通信网和移动卫星通信系统等。全书内容精练,系统性强,结构严谨,条理清晰;简化了理论推导,精简了通用技术的篇幅,突出应用性知识,并且介绍了最新的卫星通信技术成果;习题丰富且具有启发性。

《卫星通信》是采用全国招标的形式,通过西安电子科技大学出版社高等学校电子与通信类专业“十一五”规划教材专家评审会评审选定的,可作为通信工程、电子信息、计算机等专业本科生的专业课教材,也可供相关专业的研究生和工程技术人员参考使用。

图书目录

第1章卫星通信概述

第2章卫星通信基本技术

第3章卫星通信链路设计

第4章卫星通信网

第5章移动卫星通信系统

……

美籍作者图书

书名:卫星通信

作者:[美]普拉特等著

出版社:电子工业出版社

出版时间:2003-11-1

字数:778000

页数:536

ISBN:9787505392274

定价:54.00

编辑推荐

本书是普通高等教育“十五”国家级规划教材之一。本教材的主要对象是通信工程、计算机通信以及信息工程等专业的本科高年级学生,也可作为跨专业学生和工程技术人员的参考书。

本书是一本介绍卫星通信原理、技术和系统的基础性教材,包括卫星移动通信的内容,同时对卫星通信系统中的因特网业务及宽带综合业务的特殊问题和技术进行了讨论。书中还列举了当前正在运行的一些典型的卫星通信系统。

内容简介

本书是关于卫星通信的一本最新且权威的著作。全书共分为11章,4个附录,内容涉及轨道力学与发射台、人造卫星、人造卫星链路设计、卫星链路的调制与多路技术、多路存取、数字卫星链路误差控制、传播效果及其对卫星地球链路的影响、VSAT系统、低地球轨道与非同步卫星系统、直接广播卫星电视与无线电通信、卫星导航与全球定位系统等。

全书内容结构合理,反映了卫星通信的前沿技术。可作为大专院校电气工程专业学生的教材,也可作为相关研究人员及工程技术人员的参考书。

作者简介

TimothyPratt:弗吉尼亚技术学院电气与计算机工程系教授。他在英国伯明翰大学获得电气工程硕士与博士学位,并在英国及美国教授通信课程。其研究领域包括卫星通信、定位以及航空电子设备等;此外,他也是IEEE高级会员及IEE(London)的会员。

图书目录

第1章简介

第2章轨道力学与发射台

第3章卫星

第4章卫星链路设计

第5章卫星链路的调制与多路技术

第6章多路存取

第7章数字卫星链路误差控制

第8章传播效果及其对卫星地球链路的影响

第9章VSAT系统

第10章低地球轨道与非同步卫星系统

第11章直接广播卫星电视与无线电通信

第12章卫星导航与全球定位系统

附录A通信工程中的分贝

附录B模拟电话传输

附录C误差函数erfc(x)和函数Q(z)

附录D简单衰减模型

术语表

索引

This article is from the network, does not represent the position of this station. Please indicate the origin of reprint
TOP