Achieving optimum system capacity with a limited frequency spectrum is one of the main research issues in cellular communications
ronankiyaswanth
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Nov 01, 2025
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About This Presentation
Introduction
Achieving optimum system capacity with a limited frequency
spectrum is one of the main research issues in cellular
communications.
In a cellular system, frequency management and channel
assignment are essential in order to achieve the basic objectives
of spectrum utilization as we...
Slide Content
Unit-5
Frequency Management and Channel
Assignment
Frequency Management and Channel
Assignment
Achievingoptimumsystemcapacitywithalimitedfrequency
spectrumisoneofthemainresearchissuesincellular
communications.
Inacellularsystem,frequencymanagementandchannel
assignmentareessentialinordertoachievethebasicobjectives
ofspectrumutilizationaswellasadaptabilitytotrafficdensity.
Inthisunit,thevariousaspectsleadingtoanefficientand
effectivefrequencyplanningofcellularsystemsarediscussedin
detail.
Dependinguponthesystemparameters,theallocatedfrequency
spectrumisdividedintoanumberoffrequencychannels.
Theseavailablefrequencychannelsarethendividedintothe
subsetsthatcanbeassignedtoeachcell.
Introduction
spectrumisoneofthemainresearchissuesincellular
communications.
Inacellularsystem,frequencymanagementandchannel
assignmentareessentialinordertoachievethebasicobjectives
ofspectrumutilizationaswellasadaptabilitytotrafficdensity.
Inthisunit,thevariousaspectsleadingtoanefficientand
effectivefrequencyplanningofcellularsystemsarediscussedin
detail.
Dependinguponthesystemparameters,theallocatedfrequency
spectrumisdividedintoanumberoffrequencychannels.
Theseavailablefrequencychannelsarethendividedintothe
subsetsthatcanbeassignedtoeachcell.
Introduction
•Differentstrategiesarefollowedfortheassignmentofthese
channelsetstocells.
•Fixedchannelassignment(FCA)techniqueanddynamic
channelallocationtechniquesarecoveredindetail.
•Frequencymanagementincludesoperationssuchas
designationofset-upandvoicechannels,numberingthe
channels,andgroupingvoicechannelsintosubsets.
•Themainobjectiveofchannel-assignmentistostabilizethe
fluctuationsintheprobabilityofcallblockageovertheentire
coverageareaofacellularnetworkoveraperiodoftime.
•Thechannelassignmentdoestheallocationofspecificchannels
tocellsitesandmobileunits.Itcanbedoneintwoways:
channelsetstocells.
•Fixedchannelassignment(FCA)techniqueanddynamic
channelallocationtechniquesarecoveredindetail.
•Frequencymanagementincludesoperationssuchas
designationofset-upandvoicechannels,numberingthe
channels,andgroupingvoicechannelsintosubsets.
•Themainobjectiveofchannel-assignmentistostabilizethe
fluctuationsintheprobabilityofcallblockageovertheentire
coverageareaofacellularnetworkoveraperiodoftime.
•Thechannelassignmentdoestheallocationofspecificchannels
tocellsitesandmobileunits.Itcanbedoneintwoways:
•Short-termassignment,whereonechannelassignmentpercall
ishandledbymobiletelephoneswitchingoffice(MTSO).
•Long-termassignment,whereafixedchannelsetconsistingof
oneormoresubsetsareassignedtocellsiteonalong-term
basis.
Thisunitintroducesnumberingoftheradiochannels,trafficand
channelassignment,non-FCA.
Numberingtheradiochannels
•Manycellularmobilesystemsoperateon666channels.Each
channelconsistsoftwofrequencychannelbandwidths(mobile
transmit/uplinkorreversechannelandcell-sitetransmit/downlink
orforwardchannel)toallowduplexoperation.
Thesetwochannelbandwidthsmustbeseparatedinfrequencyin
ordertoavoidinterference.
ishandledbymobiletelephoneswitchingoffice(MTSO).
•Long-termassignment,whereafixedchannelsetconsistingof
oneormoresubsetsareassignedtocellsiteonalong-term
basis.
Thisunitintroducesnumberingoftheradiochannels,trafficand
channelassignment,non-FCA.
Numberingtheradiochannels
•Manycellularmobilesystemsoperateon666channels.Each
channelconsistsoftwofrequencychannelbandwidths(mobile
transmit/uplinkorreversechannelandcell-sitetransmit/downlink
orforwardchannel)toallowduplexoperation.
Thesetwochannelbandwidthsmustbeseparatedinfrequencyin
ordertoavoidinterference.
•Thefrequencyseparationbetweentheuplinkanddownlink
channelsistermedaschannelspacing(or)duplexspacing.
•Inthepresent800MHzbandcellularsystem,theseparation
betweenthemobiletransmitandthecell-sitetransmitisspecified
as45MHz.
•Thesub-sectionsthatfollowdescribethenumberingofradio
channelsbydiscussingthefrequencymanagementchartand
groupingofchannelsintosubsets.
(1)Frequencymanagementchart
•Thetotalchannelsavailableare832innumber.However,most
mobileunitsandsystemsarestilloperatingon666channels.
•Figureshowsthearrangementof666frequencychannelsin
blockAandblockBsystems,eachcontaining333channels.
channelsistermedaschannelspacing(or)duplexspacing.
•Inthepresent800MHzbandcellularsystem,theseparation
betweenthemobiletransmitandthecell-sitetransmitisspecified
as45MHz.
•Thesub-sectionsthatfollowdescribethenumberingofradio
channelsbydiscussingthefrequencymanagementchartand
groupingofchannelsintosubsets.
(1)Frequencymanagementchart
•Thetotalchannelsavailableare832innumber.However,most
mobileunitsandsystemsarestilloperatingon666channels.
•Figureshowsthearrangementof666frequencychannelsin
blockAandblockBsystems,eachcontaining333channels.
•Outofthese333availablechannelsineachsystem,312
channelsareusedforvoicecommunicationand21channelsare
usedforcontrollingthesystem.
•These21channelsarecalledascontrolchannelsorset-up
channels.Therefore,atotalof42channelsareusedfor
controllingthesystem.
•Inchannel1,thetwofrequenciesavailableformobileandcell-
sitetransmitare
1.825.030MHz(mobiletransmit)
2.870.030MHz(cell-sitetransmit)
•Inchannel666,thetwofrequenciesavailableformobileandcell-
sitetransmitare
1.844.98MHz(mobiletransmit)
2.889.98MHz(cell-sitetransmit)
channelsareusedforvoicecommunicationand21channelsare
usedforcontrollingthesystem.
•These21channelsarecalledascontrolchannelsorset-up
channels.Therefore,atotalof42channelsareusedfor
controllingthesystem.
•Inchannel1,thetwofrequenciesavailableformobileandcell-
sitetransmitare
1.825.030MHz(mobiletransmit)
2.870.030MHz(cell-sitetransmit)
•Inchannel666,thetwofrequenciesavailableformobileandcell-
sitetransmitare
1.844.98MHz(mobiletransmit)
2.889.98MHz(cell-sitetransmit)
•Eachmarket(i.e.eachcity)hastwosystemsforaduopoly
marketpolicywitheachblockhaving333channels.
•The42set-upchannelsalsocalledascontrolchannelsetsare
assignedasfollows:
1.Channels313–333inblockA
2.Channels334–354inblockB
•Thevoicechannelsareassignedasfollows:
1.Channels1–312(312voicechannels)inblockA
2.Channels355–666(312voicechannels)inblockB
•The42set-upchannels(controlchannelsets)areassignedin
themiddleofalltheassignedchannelstofacilitatescanningof
thosechannelsbyfrequencysynthesizers.
•Inthenewadditionalspectrumallocationof10MHz,an
additional166channelsareassigned.
marketpolicywitheachblockhaving333channels.
•The42set-upchannelsalsocalledascontrolchannelsetsare
assignedasfollows:
1.Channels313–333inblockA
2.Channels334–354inblockB
•Thevoicechannelsareassignedasfollows:
1.Channels1–312(312voicechannels)inblockA
2.Channels355–666(312voicechannels)inblockB
•The42set-upchannels(controlchannelsets)areassignedin
themiddleofalltheassignedchannelstofacilitatescanningof
thosechannelsbyfrequencysynthesizers.
•Inthenewadditionalspectrumallocationof10MHz,an
additional166channelsareassigned.
•Sinceafirstchannelisassignedbelow825MHz(or870
MHz),inthefuture,additionalchannelswillbenumberedup
to849MHz(or894MHz)andwillthencircleback.
•Thelastchannelnumberis1023.Therearenochannels
between799and991channels.Newadditionalspectrum
allocationsareshowninFigure
MHz),inthefuture,additionalchannelswillbenumberedup
to849MHz(or894MHz)andwillthencircleback.
•Thelastchannelnumberis1023.Therearenochannels
between799and991channels.Newadditionalspectrum
allocationsareshowninFigure
(2)Groupingintosubsets
•Sincethereare21set-upchannelsforeachblock,itislogical
togroup312voicechannelsinto21subsetsof15voice
channelseach(thelastsubgrouphas12voicechannels
only).
•Eachsubsetthenconsistsof16channels––15voice
channelsandonecontrolchannel.
•Ineachset,theclosestadjacentchannelis21channels
awayasshowninFigure.
•Thechannelseparationisprovidedinsuchawaythatitis
sufficienttomeettheadjacentchannelisolationrequirement.
•The16channelsineachsubsetcanbemountedonaframe
andconnectedtoachannelcombiner.
•Sincethereare21set-upchannelsforeachblock,itislogical
togroup312voicechannelsinto21subsetsof15voice
channelseach(thelastsubgrouphas12voicechannels
only).
•Eachsubsetthenconsistsof16channels––15voice
channelsandonecontrolchannel.
•Ineachset,theclosestadjacentchannelis21channels
awayasshowninFigure.
•Thechannelseparationisprovidedinsuchawaythatitis
sufficienttomeettheadjacentchannelisolationrequirement.
•The16channelsineachsubsetcanbemountedonaframe
andconnectedtoachannelcombiner.
•Wideseparationbetweenadjacentchannelsisrequiredformeeting
therequirementofminimumisolation.
Set-upchannels
•Theset-upchannelsarealsocalledas controlchannels.
•Theyaredesignatedtoset-upcallsinthesystem.Butevenwithout
set-upchannels,asystemcouldworkwhereallthechannelsarein
eitherblockAorblockBwhichwillbeusedasvoicechannels.
•Ifafrequencyreusetechniqueisappliedtoacellularsystem,the
set-upchannelsactascontrolchannels.
•Theset-upchannelsareclassifiedwithrespecttotheirapplication.
Theyare
•accesschannels
•pagingchannels
therequirementofminimumisolation.
Set-upchannels
•Theset-upchannelsarealsocalledas controlchannels.
•Theyaredesignatedtoset-upcallsinthesystem.Butevenwithout
set-upchannels,asystemcouldworkwhereallthechannelsarein
eitherblockAorblockBwhichwillbeusedasvoicechannels.
•Ifafrequencyreusetechniqueisappliedtoacellularsystem,the
set-upchannelsactascontrolchannels.
•Theset-upchannelsareclassifiedwithrespecttotheirapplication.
Theyare
•accesschannels
•pagingchannels
Access channels
•Accesschannelsareusedforcallsoriginatingfrommobile.Whena
mobilesetscansallthe21set-upchannels(inblockA),two
conditionsareconsidered:
•Ifnoset-upchannelsareoperationalinblockA,thenthe
mobileunitswitchesautomaticallytoblockB.
•Ifthereisastrongset-upchannelwithnomessagedetected
thenwithinthesecondsetup,itwillbeselectedbythescanner.Paging channels
•Pagingchannelsareusedforcallsoriginatingfromland.Everycell
siteisassigneditsowncontrolorset-upchannels.Forexample,
FOCCistheforwardset-upchannelinwhicheverycellsiteare
mainlyusedtopagethemobileunitwithcontrolmessageofsame
mobilestation.
•Thesamemessageistransmittedbydifferentset-upchannels
andthereisnosimulcastinterference.
•Abetteralgorithmisusedtopagefromallthecellsites.
•Accesschannelsareusedforcallsoriginatingfrommobile.Whena
mobilesetscansallthe21set-upchannels(inblockA),two
conditionsareconsidered:
•Ifnoset-upchannelsareoperationalinblockA,thenthe
mobileunitswitchesautomaticallytoblockB.
•Ifthereisastrongset-upchannelwithnomessagedetected
thenwithinthesecondsetup,itwillbeselectedbythescanner.Paging channels
•Pagingchannelsareusedforcallsoriginatingfromland.Everycell
siteisassigneditsowncontrolorset-upchannels.Forexample,
FOCCistheforwardset-upchannelinwhicheverycellsiteare
mainlyusedtopagethemobileunitwithcontrolmessageofsame
mobilestation.
•Thesamemessageistransmittedbydifferentset-upchannels
andthereisnosimulcastinterference.
•Abetteralgorithmisusedtopagefromallthecellsites.
Traffic and channel assignment
•Thevehiculartrafficdensityofacoverageareaisacriticalelement
andmustbedeterminedbeforeasystemisdesigned.
•Thistrafficpatterninbusyhourscanbeconfinedtodifferentzones
withintheservicearea.
•Ifthetrafficpatternpredominatesoverthesimplesignalcoverage
pattern,thenthecell-siteselectionwillbebasedonthetraffic
pattern.
•Choiceoftheinitialcellsitesshouldbebasedonthesignalcovered
inzonesofheavyvehiculartraffic.
•Thismeansthatthecellsitewouldmostlikelybelocatedatthe
centreofthosezones.
•Ifcalltrafficdataarecollectedwhilethesystemisoperating,then
wecanupdatethecalltrafficdataateachcellsitetocorrelatewith
thevehiculartrafficdata.
•Thevehiculartrafficdensityofacoverageareaisacriticalelement
andmustbedeterminedbeforeasystemisdesigned.
•Thistrafficpatterninbusyhourscanbeconfinedtodifferentzones
withintheservicearea.
•Ifthetrafficpatternpredominatesoverthesimplesignalcoverage
pattern,thenthecell-siteselectionwillbebasedonthetraffic
pattern.
•Choiceoftheinitialcellsitesshouldbebasedonthesignalcovered
inzonesofheavyvehiculartraffic.
•Thismeansthatthecellsitewouldmostlikelybelocatedatthe
centreofthosezones.
•Ifcalltrafficdataarecollectedwhilethesystemisoperating,then
wecanupdatethecalltrafficdataateachcellsitetocorrelatewith
thevehiculartrafficdata.
•Thisinformationwillbeusefulfordeterminingwhethernewcell
splittingisneeded.Ifitis,thenwemustdeterminehowmanyradios
shouldbeinstalledatthenewsiteandwhereitistobelocated.
•These decisions are all related to frequency channel assignment
(1)Fixedchannelassignment
•InFCA,eachcellassignsitsownfrequencychanneltothemobile
subscriberswithinitscell.
•Channelassignmentisprimarilybasedoncausingleastco-channel
andadjacentchannelinterferenceinthecellularsystem.
•ThechannelassignmentforeachvoicecallisdeterminedbyMTSO
onashort-termbasis.
•InaFCA,theset-upandvoicechannelsareusuallyassignedtothe
cellsiteforrelativelylongperiods.Channelsinachannelsetare
usually21channelsapartandmustmeetminimumfrequency
spacingrequirementsofamulti-channeltransmittercombiner.
splittingisneeded.Ifitis,thenwemustdeterminehowmanyradios
shouldbeinstalledatthenewsiteandwhereitistobelocated.
•These decisions are all related to frequency channel assignment
(1)Fixedchannelassignment
•InFCA,eachcellassignsitsownfrequencychanneltothemobile
subscriberswithinitscell.
•Channelassignmentisprimarilybasedoncausingleastco-channel
andadjacentchannelinterferenceinthecellularsystem.
•ThechannelassignmentforeachvoicecallisdeterminedbyMTSO
onashort-termbasis.
•InaFCA,theset-upandvoicechannelsareusuallyassignedtothe
cellsiteforrelativelylongperiods.Channelsinachannelsetare
usually21channelsapartandmustmeetminimumfrequency
spacingrequirementsofamulti-channeltransmittercombiner.
•Channelsareusuallynumberedinorderofincreasing
frequency.Regardlessofthenumberofchannelsinachannel
set,thehighestchannelsetisfrequencyadjacenttothelowest
channelset.
ThefollowingaretheadvantagesofFCA:
•Fixedparameters(power,frequency)fortransceivers.
•Goodperformanceunderuniform-and/orhigh-trafficloadsas
cellsindependentlydecidetheirchannelallocationdecisions.
•Ifeachcellisallocatedtoapre-determinedsetofvoice
channelsthenthecallisblockedandallthechannelsare
occupied.
•Borrowingstrategy:Acellisallowedtoborrowchannelsfroma
neighbouringcellifallofitsownchannelsareoccupied.
•Mobileswitchingcentre(MSC)supervisestheborrowing
proceduretoensurenodisruptingcallsorinterferencewithany
ofthecallsinprogressinthedonorcell.
frequency.Regardlessofthenumberofchannelsinachannel
set,thehighestchannelsetisfrequencyadjacenttothelowest
channelset.
ThefollowingaretheadvantagesofFCA:
•Fixedparameters(power,frequency)fortransceivers.
•Goodperformanceunderuniform-and/orhigh-trafficloadsas
cellsindependentlydecidetheirchannelallocationdecisions.
•Ifeachcellisallocatedtoapre-determinedsetofvoice
channelsthenthecallisblockedandallthechannelsare
occupied.
•Borrowingstrategy:Acellisallowedtoborrowchannelsfroma
neighbouringcellifallofitsownchannelsareoccupied.
•Mobileswitchingcentre(MSC)supervisestheborrowing
proceduretoensurenodisruptingcallsorinterferencewithany
ofthecallsinprogressinthedonorcell.
(2)Dynamicchannelassignment
•Indynamicchannelassignment(DCA),thecentralcommon
poolmaintainsalltheavailablechannels.
•Channelsareassigneddynamicallyasnewrequestsforradio
resource(forafreshoriginatingcallorhandoffofexistingcall)
arriveinthesystem.
•Thisalsoimpliesthatwhentheuseofassignedchannelis
completed,thechannelcurrentlyinuseisreturnedtothe
centralpool.
•Inordertoachieveoptimumsystemcapacitywithlimited
frequencyspectrum,manyDCAschemeshavebeen
proposedtoallocatethechannelsmoreefficiently.
•Inacellularsystem,amobilesubscribermovesfromonecell
toanotherandcontinuationofcommunicationlinkisensured
withsuitablehandoffmechanism.
•Indynamicchannelassignment(DCA),thecentralcommon
poolmaintainsalltheavailablechannels.
•Channelsareassigneddynamicallyasnewrequestsforradio
resource(forafreshoriginatingcallorhandoffofexistingcall)
arriveinthesystem.
•Thisalsoimpliesthatwhentheuseofassignedchannelis
completed,thechannelcurrentlyinuseisreturnedtothe
centralpool.
•Inordertoachieveoptimumsystemcapacitywithlimited
frequencyspectrum,manyDCAschemeshavebeen
proposedtoallocatethechannelsmoreefficiently.
•Inacellularsystem,amobilesubscribermovesfromonecell
toanotherandcontinuationofcommunicationlinkisensured
withsuitablehandoffmechanism.
•Thisdemandsforadditionalandflexibleradioresourcesutilization.
•Onewaytoascertainminimumblockingprobabilityistoincrease
thenumberofchannelspercell.
•Theneverycellwouldexpecttohavealargenumberofchannels.
•However,becausealimitedfrequencybandisallocatedforcellular
communication,thereisanupperlimittothemaximumnumberof
channels,therebyrestrictingthenumberofavailablechannelsthat
canbeassignedtoeachcell.
•Anotherwayisnon-uniformFCAbasedontheamountoftraffic
expectedtobeservedindifferentcellsasperthestatisticaltraffic
data.
•Anotheralternativearrangementcouldbedynamicassignmentof
channelstodifferentcells,asperthe
currentdemand.
•Onewaytoascertainminimumblockingprobabilityistoincrease
thenumberofchannelspercell.
•Theneverycellwouldexpecttohavealargenumberofchannels.
•However,becausealimitedfrequencybandisallocatedforcellular
communication,thereisanupperlimittothemaximumnumberof
channels,therebyrestrictingthenumberofavailablechannelsthat
canbeassignedtoeachcell.
•Anotherwayisnon-uniformFCAbasedontheamountoftraffic
expectedtobeservedindifferentcellsasperthestatisticaltraffic
data.
•Anotheralternativearrangementcouldbedynamicassignmentof
channelstodifferentcells,asperthe
currentdemand.
Thismaybedonefromacentralpoolofchannels,oracombinationof
bothFCAandDCA.
ThefollowingaretheadvantagesofDCA:
•Nofixedchannelsareassignedtoeachcell.
•Outoftheavailablechannels,anychannelcanbeassignedtoany
cellonneedbasis.
•Theservingbasestation(BS)requestsachannelfromtheMSC
wheneveracallrequestismade.
•Considerationofthelikelihoodoffutureblockinginthecell,the
frequencyuseofthecandidatecell,thereusedistanceofthe
channel,andothercostfunctions.
•MSCneedstocollectreal-timedataonchanneloccupancy,traffic
distribution,andreceivedsignalstrengthindicator(RSSI)ofall
channelsonacontinuousbasis,whichincreasesstorageand
computationalloadonthesystem.
bothFCAandDCA.
ThefollowingaretheadvantagesofDCA:
•Nofixedchannelsareassignedtoeachcell.
•Outoftheavailablechannels,anychannelcanbeassignedtoany
cellonneedbasis.
•Theservingbasestation(BS)requestsachannelfromtheMSC
wheneveracallrequestismade.
•Considerationofthelikelihoodoffutureblockinginthecell,the
frequencyuseofthecandidatecell,thereusedistanceofthe
channel,andothercostfunctions.
•MSCneedstocollectreal-timedataonchanneloccupancy,traffic
distribution,andreceivedsignalstrengthindicator(RSSI)ofall
channelsonacontinuousbasis,whichincreasesstorageand
computationalloadonthesystem.
(3)Channelsharingscheme
•Whenaparticularcellneedsmorechannelsinordertomeetthe
increasedtrafficdemand,thechannelsofanothersectoratthe
samecellsitecanbesharedtomeettheshort-termoverloadtraffic.
•Channelsharingcanbedonefromoneofthetwoadjacentsectors
oftheneighbouringcellsinasectoredcellularsystemconfiguration.
•Sharedchannelscanbereturnedbackwhenthechannelsbecome
availableinthesharedsector.
•Thisschemeiscalledthe orderedchannelassignmentscheme
withrearrangement.
•Analternateschemeischannelassignmentwithsharingand
reassignment.Thisschememakessurethatchannel-sharing
arrangementcausesminimumimpactoncall-blockingprobabilityin
neighbouringcells.
•Whenaparticularcellneedsmorechannelsinordertomeetthe
increasedtrafficdemand,thechannelsofanothersectoratthe
samecellsitecanbesharedtomeettheshort-termoverloadtraffic.
•Channelsharingcanbedonefromoneofthetwoadjacentsectors
oftheneighbouringcellsinasectoredcellularsystemconfiguration.
•Sharedchannelscanbereturnedbackwhenthechannelsbecome
availableinthesharedsector.
•Thisschemeiscalledthe orderedchannelassignmentscheme
withrearrangement.
•Analternateschemeischannelassignmentwithsharingand
reassignment.Thisschememakessurethatchannel-sharing
arrangementcausesminimumimpactoncall-blockingprobabilityin
neighbouringcells.
•Reassignmentofsharedchannelsisdoneinordertoprovidemaximum
assistancetotheneighbouringcellstomeetthetemporaryincreasedtraffic
demand.
•Thechannelcanalsobeorderedbasedonwhichchannelsprovidebetter
performance.
•Channelsharingalwaysincreasesthetrunkingefficiencyofthechannels.
Channel-borrowingscheme
•Thechannel-borrowingschemeisusedforslowgrowingsystemsonalong-
termbasisasanalternatetothecostlycell-splittingtechniquetohandle
increasedtraffic.
•Oneapproachtoaddressincreasedtrafficofeithermobileoriginatingcallsor
handoffcallsinacellistoborrowfreeavailablechannelsfromneighbouring
cells.
•Asimplechannel-borrowingschemeimpliesthatifallchannelsassignedtoa
cellhavealreadybeenused,thenadditionalchannelsasperthecurrentneed
canbeborrowedfromanyothercell(preferablyadjacentcells)thathassome
freeunusedchannels.
•Inaddition,thecentralcellsitecanalsoborrowchannelsfromneighbouring
cells.Theextentofborrowingchannelsdependsonthetrafficdensityinthe
area.
assistancetotheneighbouringcellstomeetthetemporaryincreasedtraffic
demand.
•Thechannelcanalsobeorderedbasedonwhichchannelsprovidebetter
performance.
•Channelsharingalwaysincreasesthetrunkingefficiencyofthechannels.
Channel-borrowingscheme
•Thechannel-borrowingschemeisusedforslowgrowingsystemsonalong-
termbasisasanalternatetothecostlycell-splittingtechniquetohandle
increasedtraffic.
•Oneapproachtoaddressincreasedtrafficofeithermobileoriginatingcallsor
handoffcallsinacellistoborrowfreeavailablechannelsfromneighbouring
cells.
•Asimplechannel-borrowingschemeimpliesthatifallchannelsassignedtoa
cellhavealreadybeenused,thenadditionalchannelsasperthecurrentneed
canbeborrowedfromanyothercell(preferablyadjacentcells)thathassome
freeunusedchannels.
•Inaddition,thecentralcellsitecanalsoborrowchannelsfromneighbouring
cells.Theextentofborrowingchannelsdependsonthetrafficdensityinthe
area.
Channel assignment algorithms
•Thereareseveralalgorithmsavailablefornon-FCA.Theyarelisted
below:
•Fixedchannelalgorithm(FCA):Thisalgorithmisthemostcommonly
adoptedinmanycellularsystems.Here,eachcellassignsitsownradio
channelstothevehicleswithinitscell.
•Dynamicchannelalgorithm(DCA):Herenofixedchannelsare
assignedtoeachcell.Therefore,anychannelinacompositeof312
radiochannelscanbeassignedtothemobileunit.
Thismeansthatachannelisassigneddirectlytoamobileunit.Onthe
basisofoverallsystemperformance,theDCAcanalsobeusedduringa
call.
•Hybridchannelalgorithm(HCA):ThisisacombinationofFCAand
DCA.AportionofthetotalfrequencychannelswilluseFCAandtherest
willuseDCA.
•Borrowingchannelalgorithm(BCA):ItusesFCAasanormal
assignmentcondition.Whenallfixedchannelsareoccupied,thenthe
cellborrowschannelsfromtheneighbouringcells.
•Thereareseveralalgorithmsavailablefornon-FCA.Theyarelisted
below:
•Fixedchannelalgorithm(FCA):Thisalgorithmisthemostcommonly
adoptedinmanycellularsystems.Here,eachcellassignsitsownradio
channelstothevehicleswithinitscell.
•Dynamicchannelalgorithm(DCA):Herenofixedchannelsare
assignedtoeachcell.Therefore,anychannelinacompositeof312
radiochannelscanbeassignedtothemobileunit.
Thismeansthatachannelisassigneddirectlytoamobileunit.Onthe
basisofoverallsystemperformance,theDCAcanalsobeusedduringa
call.
•Hybridchannelalgorithm(HCA):ThisisacombinationofFCAand
DCA.AportionofthetotalfrequencychannelswilluseFCAandtherest
willuseDCA.
•Borrowingchannelalgorithm(BCA):ItusesFCAasanormal
assignmentcondition.Whenallfixedchannelsareoccupied,thenthe
cellborrowschannelsfromtheneighbouringcells.
•
Forcible-borrowingchannelalgorithm(FBCA):Inthiscase,ifa
channelisinoperationandthesituationwarrantsit,then
channelsmustbeborrowedfromtheneighbouringcellsandat
thesametimeanothervoicechannelwillbeassignedto
continuethecallintheneighbouringcell.
“Channelcannotbeborrowedfrequentlyfromadjacent
cells”.
There are two types of blocking possible in FBCA algorithm.
Average blocking: It happens mostly in non-uniform traffic.
Handoff blocking: It happens mostly in uniform traffic.
• Queuing of handoff calls can increase traffic capacity.
Forcible-borrowingchannelalgorithm(FBCA):Inthiscase,ifa
channelisinoperationandthesituationwarrantsit,then
channelsmustbeborrowedfromtheneighbouringcellsandat
thesametimeanothervoicechannelwillbeassignedto
continuethecallintheneighbouringcell.
“Channelcannotbeborrowedfrequentlyfromadjacent
cells”.
There are two types of blocking possible in FBCA algorithm.
Average blocking: It happens mostly in non-uniform traffic.
Handoff blocking: It happens mostly in uniform traffic.
• Queuing of handoff calls can increase traffic capacity.
Channel assignment to travelling mobile units
Thissituationalwaysoccursinthemorning,whencarstravel
intothecity,andatnight,whenthetrafficpatternreverses.
Ifthetrafficdensityisuniform,theunsymmetricalmobile-unit
antennapattern(assuminglargebackwardenergyfromthe
motionofthevehicle)doesnotaffectthesystemoperation
much.
However,whenthetrafficbecomesheavierasmorecars
approachthecity,thetrafficpatternbecomesnonuniformand
thesitesclosesttothecity,orinthecity,cannotreceivethe
expectednumberofcallsorhandoffsinthemorningbecauseof
themobileunitantennapatterns.
Atnight,asthecarsmoveoutofthecity,thecellsitesclosestto
thecitywouldhaveahardtimehandingoffcallstothesites
awayfromthecity.
Thissituationalwaysoccursinthemorning,whencarstravel
intothecity,andatnight,whenthetrafficpatternreverses.
Ifthetrafficdensityisuniform,theunsymmetricalmobile-unit
antennapattern(assuminglargebackwardenergyfromthe
motionofthevehicle)doesnotaffectthesystemoperation
much.
However,whenthetrafficbecomesheavierasmorecars
approachthecity,thetrafficpatternbecomesnonuniformand
thesitesclosesttothecity,orinthecity,cannotreceivethe
expectednumberofcallsorhandoffsinthemorningbecauseof
themobileunitantennapatterns.
Atnight,asthecarsmoveoutofthecity,thecellsitesclosestto
thecitywouldhaveahardtimehandingoffcallstothesites
awayfromthecity.
To solve these problems, we have to use less transmitted power
for both set-up and voice channels for certain cell sites.
Wealsohavetoraisethethresholdlevelforreverseset-up
channelsandvoicechannelsatcertaincellsitesinorderto
controltheacceptanceofincomingcallsandhandoffcalls.
Threemethodscanbeused.
•Underlay-overlay
•Frequency assignment
•Tilted antenna
for both set-up and voice channels for certain cell sites.
Wealsohavetoraisethethresholdlevelforreverseset-up
channelsandvoicechannelsatcertaincellsitesinorderto
controltheacceptanceofincomingcallsandhandoffcalls.
Threemethodscanbeused.
•Underlay-overlay
•Frequency assignment
•Tilted antenna
Underlay-overlay
•Thetrafficcapacityatanomnidirectionalcelloradirectionalcell
(seeFigure)canbeincreasedbyusingthe underlay-overlay
arrangement.
•Theunderlayistheinnercircle,andtheoverlayistheouterring.
•Thetransmittedpowersofthevoicechannelsatthesiteare
adjustedforthesetwoareas.Thendifferentvoicefrequenciesare
assignedtoeacharea.
•Inanomnidirectionalcell,thefrequency-reusedistanceofa
seven-cellreusepatternisD=4.6R,whereRistheradiusofthe
cell.OneoverlayandoneunderlayareshowninFigure(a).
•Thetrafficcapacityatanomnidirectionalcelloradirectionalcell
(seeFigure)canbeincreasedbyusingthe underlay-overlay
arrangement.
•Theunderlayistheinnercircle,andtheoverlayistheouterring.
•Thetransmittedpowersofthevoicechannelsatthesiteare
adjustedforthesetwoareas.Thendifferentvoicefrequenciesare
assignedtoeacharea.
•Inanomnidirectionalcell,thefrequency-reusedistanceofa
seven-cellreusepatternisD=4.6R,whereRistheradiusofthe
cell.OneoverlayandoneunderlayareshowninFigure(a).
Reuse partition scheme
•Becauseofthesectorizationinadirectionalcell,thechannel
assignmenthasadifferentalgorithminsixregions(Figureb),
i.e.,threeoverlayregionsandthreeunderlayregions.
Frequencyassignment
Weassignthefrequenciesbyasetofchannelsoranypartofa
setormorethanonesetofthetotal21sets.
Borrowed-frequencysetsareusedwhenneeded.
Onthebasisofcoveragepre-diction,wecanassignfrequencies
intelligentlyatonesiteoratonesectorwithoutinterferingwith
adjacentcochannelsectorsorcochannelcells.
TiltedantennaThetilteddirectionalantennaarrangementcan
eliminateinterference.
assignmenthasadifferentalgorithminsixregions(Figureb),
i.e.,threeoverlayregionsandthreeunderlayregions.
Frequencyassignment
Weassignthefrequenciesbyasetofchannelsoranypartofa
setormorethanonesetofthetotal21sets.
Borrowed-frequencysetsareusedwhenneeded.
Onthebasisofcoveragepre-diction,wecanassignfrequencies
intelligentlyatonesiteoratonesectorwithoutinterferingwith
adjacentcochannelsectorsorcochannelcells.
TiltedantennaThetilteddirectionalantennaarrangementcan
eliminateinterference.
Sometimesantennatiltingismoreeffectivethandecreasing
antennaheight,especiallyinareasoftalltreesorathighsites.
Whenthetiltinganglesbecome22°orgreater,thehorizontal
patterncreatesanotchinthefrontoftheantenna,whichcan
furtherreducetheinterference(seeFigureinnextslide).
antennaheight,especiallyinareasoftalltreesorathighsites.
Whenthetiltinganglesbecome22°orgreater,thehorizontal
patterncreatesanotchinthefrontoftheantenna,whichcan
furtherreducetheinterference(seeFigureinnextslide).
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