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3GPP TS 36.321 V12.3.0 (2014-09)Technical Specification

3rd Generation Partnership Project;Technical Specification Group Radio Access Network;Evolved Universal Terrestrial Radio Access E!UTRA";#ediu$ Access %ontrol #A%" protocol specification

Release &'"

The present document has been developed within the 3rdGeneration Partnership Project (3GPPTM) and may be further elaborated for the purposes of 3GPP.

The present document has not been subject to any approval process by the 3GPP Orani!ational Partners and shall not be implemented.

This "pecification is provided for future development wor# within 3GPPonly. The Orani!ational Partners accept no liability for any use of this "pecification.

"pecifications and reports for implementation of the 3GPPTMsystem should be obtained via the 3GPP Orani!ational Partners$ Publications Offices.

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%eywordsUMTS, radio

3GPP

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Copyright Notification

'o part may be reproduced ecept as authori!ed by written permission.The copyriht and the foreoin restriction etend to reproduction in all media.

*+,- 3GPP Orani!ational Partners (/0&1 /T&" 22"/ T"& TT/ TT2)./ll rihts reserved.

4MT"5 is a Trade Mar# of T"& reistered for the benefit of its members

3GPP5 is a Trade Mar# of T"& reistered for the benefit of its Members and of the 3GPP Orani!ational Partners

6T5 is a Trade Mar# of T"& currently bein reistered for the benefit of its Members and of the 3GPP Orani!ational Partners

G"M7 and the G"M loo are reistered and owned by the G"M /ssociation

3GPP TS 3()3'& *&')3)+ '+&,!+-"'Release &'

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*o&te&ts

8oreword..........................................................................................................................................................

, "cope......................................................................................................................................................

* 0eferences..............................................................................................................................................

3 9efinitions and abbreviations.................................................................................................................3., 9efinitions...........................................................................................................................................................

3.* /bbreviations.......................................................................................................................................................

- General...................................................................................................................................................-., &ntroduction.........................................................................................................................................................

-.* M/2 architecture................................................................................................................................................-.*., M/2 ntities.................................................................................................................................................-.3 "ervices..............................................................................................................................................................-.3., "ervices provided to upper layers................................................................................................................

-.3.* "ervices epected from physical layer.........................................................................................................-.- 8unctions...........................................................................................................................................................

-.: 2hannel structure...............................................................................................................................................-.:., Transport 2hannels......................................................................................................................................-.:.* 6oical 2hannels..........................................................................................................................................-.:.3 Mappin of Transport 2hannels to 6oical 2hannels..................................................................................-.:.3., 4plin# mappin......................................................................................................................................-.:.3.* 9ownlin# mappin.................................................................................................................................

: M/2 procedures..................................................................................................................................:., 0andom /ccess procedure.................................................................................................................................:.,., 0andom /ccess Procedure initiali!ation......................................................................................................:.,.* 0andom /ccess 0esource selection.............................................................................................................

:.,.3 0andom /ccess Preamble transmission.......................................................................................................:.,.- 0andom /ccess 0esponse reception............................................................................................................:.,.: 2ontention 0esolution..................................................................................................................................

:.,.; 2ompletion of the 0andom /ccess procedure.............................................................................................:.* Maintenance of 4plin# Time /linment...........................................................................................................:.3 96 operation..........................................................................................................................................:.-.*., =/0> entity..........................................................................................................................................

:.-.*.* =/0> process........................................................................................................................................:.-.3 Multiplein and assembly..........................................................................................................................:.-.3., 6oical channel prioriti!ation................................................................................................................:.-.3.* Multiplein of M/2 2ontrol lements and M/2 "94s....................................................................:.-.- "chedulin 0e?uest......................................................................................................................................:.-.: 1uffer "tatus 0eportin...............................................................................................................................

:.-.; Power =eadroom 0eportin.........................................................................................................................:.: P2= reception....................................................................................................................................................:.; 12= reception...................................................................................................................................................:.@ 9iscontinuous 0eception (90A).......................................................................................................................:.B M/2 reconfiuration........................................................................................................................................

:.C M/2 0eset........................................................................................................................................................:.,+ "emi

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:.,, =andlin of un#nown unforeseen and erroneous protocol data.......................................................................:.,* M2= reception..................................................................................................................................................:.,3 /ctivationD9eactivation of "2ells.....................................................................................................................

; Protocol 9ata 4nits formats and parameters........................................................................................;., Protocol 9ata 4nits...........................................................................................................................................;.,., General.........................................................................................................................................................;.,.* M/2 P94 (96

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oreord

This Technical "pecification has been produced by the 3rdGeneration Partnership Project (3GPP).

The contents of the present document are subject to continuin wor# within the T"G and may chane followin formalT"G approval. "hould the T"G modify the contents of the present document it will be re

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1 S!o#e

The present document specifies the

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mac-ContentionResolutionTimerH "pecifies the number of consecutive subframe(s) durin which the 4 shall monitorthe P922= after Ms3 is transmitted.

"R# C%cle: "pecifies the periodic repetition of the On 9uration followed by a possible period of inactivity (see fiure3., information also includes =/0> process &9. 8or 46 information comprisesa set of '9& and T1 si!e for each transport bloc#.

HAR& R$$ $imerH This parameter specifies the minimum amount of subframe(s) before a 96 =/0> retransmissionis epected by the 4.

'sgHMessae transmitted on 46

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-econdar% $iming Advance +roup:Timin /dvance Group not containin the P2ell. / "econdary Timin /dvanceGroup contains at least one "ervin 2ell with an 46 confiured.

-erving Cell: / Primary or a "econdary 2ell JBK.

$iming Advance +roup:/ roup of "ervin 2ells that is confiured by 002 and that for the cells with an 46confiured usin the same timin reference cell and the same Timin /dvance value.

'OTH / timer is runnin once it is started until it is stopped or until it epiresI otherwise it is not runnin. /timer can be started if it is not runnin or restarted if it is runnin. / Timer is always started or restarted

from its initial value.

3.2 %''reiatio&s

8or the purposes of the present document the abbreviations iven in T0 *,.C+: J,K and the followin apply. /nabbreviation defined in the present document ta#es precedence over the definition of the same abbreviation if any inT0 *,.C+: J,K.

1"0 1uffer "tatus 0eport

2& 2hannel >uality &ndicator e&MT/ nhanced &nterference Manaement and Traffic /daptatione&MT/

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4.2 M%* ar!$ite!ture

The description in this sub clause is a model and does not specify or restrict implementations.

002 is in control of confiuration of M/2.

4.2.1 M%* +&tities

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4.3 Seri!es

4.3.1 Seri!es #roided to u##er "a7ers

This clause describes the different services provided by M/2 sublayer to upper layers.

< data transfer

< radio resource allocation

4.3.2 Seri!es e#e!ted ro8 #$7si!a" "a7er

The physical layer provides the followin services to M/2H

< data transfer servicesI

< sinallin of =/0> feedbac#I

< sinallin of "chedulin 0e?uestI

< measurements (e.. 2hannel >uality &ndication (2>&)).

The access to the data transfer services is throuh the use of transport channels. The characteristics of a transportchannel are defined by its transport format (or format set) specifyin the physical layer processin to be applied to thetransport channel in ?uestion such as channel codin and interleavin and any serviceI

< priority handlin between 4s by means of dynamic schedulinI

< priority handlin between loical channels of one 4I

< 6oical 2hannel prioritisationI

< transport format selection.

The location of the different functions and their relevance for uplin# and downlin# respectively is illustrated in Table-.-

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Ta8le ,),!&1 #A% function location and link direction association)

#A% function UE eN9 2ownlink UplinkMa##i& 'etee& "oi!a" !$a&&e"s a&d tra&s#ort !$a&&e"s

Mu"ti#"ei&

e8u"ti#"ei&

+rror !orre!tio& t$rou$ :%R;

Tra&s#ort or8at Se"e!tio& Priorit7 $a&d"i& 'etee& U+s Priorit7 $a&d"i& 'etee& "oi!a" !$a&&e"s o o&e U+ oi!a" *$a&&e" #rioritisatio& S!$edu"i& i&or8atio& re#orti&

4.5 *$a&&e" stru!ture

The M/2 sublayer operates on the channels defined belowI transport channels are "/Ps between M/2 and 6ayer ,loical channels are "/Ps between M/2 and 062.

4.5.1 Tra&s#ort *$a&&e"s

The transport channels used by M/2 are described in Table -.:.,

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4.5.3.1 U#"i&= 8a##i&

The M/2 entity is responsible for mappin loical channels for the uplin# onto uplin# transport channels. The uplin#loical channels can be mapped as described in 8iure -.:.3.,

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5 M%* #ro!edures

5.1 Ra&do8 %!!ess #ro!edure

5.1.1 Ra&do8 %!!ess Pro!edure i&itia"i>atio&

The 0andom /ccess procedure described in this subclause is initiated by a P922= order or by the M/2 sublayeritself. 0andom /ccess procedure on an "2ell shall only be initiated by a P922= order. &f a 4 receives a P922=transmission consistent with a P922= order J:K mas#ed with its 2 transmissions maxHAR(-Msg$&x(P2ell only).

< the 2ontention 0esolution Timer mac-ContentionResolution&imer(P2ell only).

'OTH The above parameters may be updated from upper layers before each 0andom /ccess procedure is

initiated.

The 0andom /ccess procedure shall be performed as followsH

< 8lush the Ms3 bufferI

< set the P0/M16FT0/'"M&""&O'F2O4'T0 to ,I

< set the bac#off parameter value in the 4 to + msI

< for the 0' suspend any 0' subframe confiurationI

< proceed to the selection of the 0andom /ccess 0esource (see subclause :.,.*).

3GPP

3GPP TS 3()3'& *&')3)+ '+&,!+-"&3Release &'

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'OTH There is only one 0andom /ccess procedure onoin at any point in time. &f the 4 receives a re?uest fora new 0andom /ccess procedure while another is already onoin it is up to 4 implementation whetherto continue with the onoin procedure or start with the new procedure.

5.1.2 Ra&do8 %!!ess Resour!e se"e!tio&

The 0andom /ccess 0esource selection procedure shall be performed as followsH

< &f ra-PreambleIndex(0andom /ccess Preamble) and ra-PRACH-MaskIndex(P0/2= Mas# &nde) have beeneplicitly sinalled and ra-PreambleIndexis not ++++++H

< the 0andom /ccess Preamble and the P0/2= Mas# &nde are those eplicitly sinalled.

< else the 0andom /ccess Preamble shall be selected by the 4 as followsH

< &f Ms3 has not yet been transmitted the 4 shallH

< if 0andom /ccess Preambles roup 1 eists and if the potential messae si!e (data available fortransmission plus M/2 header and where re?uired M/2 control elements) is reater than

message#izeroupAand if the pathloss is less than P2M/Ac (of the "ervin 2ell performin the 0andom

/ccess Procedure) preambleInitialRecei'ed&argetPo!er deltaPreambleMsg$messagePo!erOffsetroup" thenH

< select the 0andom /ccess Preambles roup 1I

< elseH

< select the 0andom /ccess Preambles roup /.

< else if Ms3 is bein retransmitted the 4 shallH

< select the same roup of 0andom /ccess Preambles as was used for the preamble transmission attemptcorrespondin to the first transmission of Ms3.

< randomly select a 0andom /ccess Preamble within the selected roup. The random function shall be suchthat each of the allowed selections can be chosen with e?ual probabilityI

< set P0/2= Mas# &nde to +.

< determine the net available subframe containin P0/2= permitted by the restrictions iven by theprach-

ConfigIndex)the P0/2= Mas# &nde (see subclause @.3) and physical layer timin re?uirements J*K (a 4 mayta#e into account the possible occurrence of measurement aps when determinin the net available P0/2=subframe)I

< if the transmission mode is T99 and the P0/2= Mas# &nde is e?ual to !eroH

< if ra-PreambleIndexwas eplicitly sinalled and it was not ++++++ (i.e. not selected by M/2)H

< randomly select with e?ual probability one P0/2= from the P0/2=s available in the determinedsubframe.

< elseH

< randomly select with e?ual probability one P0/2= from the P0/2=s available in the determinedsubframe and the net two consecutive subframes.

< elseH

< determine a P0/2= within the determined subframe in accordance with the re?uirements of the P0/2=Mas# &nde.

< proceed to the transmission of the 0andom /ccess Preamble (see subclause :.,.3).

3GPP

3GPP TS 3()3'& *&')3)+ '+&,!+-"&,Release &'

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5.1.3 Ra&do8 %!!ess Prea8'"e tra&s8issio&

The random

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< obtain the M/2 P94 to transmit from the LMultiplein and assemblyL entity and store it in theMs3 buffer.

'OTH hen an uplin# transmission is re?uired e.. for contention resolution the e'1 should not provide arant smaller than :; bits in the 0andom /ccess 0esponse.

'OTH &f within a 0andom /ccess procedure an uplin# rant provided in the 0andom /ccess 0esponse for thesame roup of 0andom /ccess Preambles has a different si!e than the first uplin# rant allocated durinthat 0andom /ccess procedure the 4 behavior is not defined.

&f no 0andom /ccess 0esponse is received within the 0/ 0esponse window or if none of all received 0andom /ccess0esponses contains a 0andom /ccess Preamble identifier correspondin to the transmitted 0andom /ccess Preamblethe 0andom /ccess 0esponse reception is considered not successful and the 4 shallH

< increment P0/M16FT0/'"M&""&O'F2O4'T0 by ,I

< &f P0/M16FT0/'"M&""&O'F2O4'T0 Spreamble&ransMaxQ ,H

< if the 0andom /ccess Preamble is transmitted on the P2ellH

< indicate a 0andom /ccess problem to upper layersI

< if the 0andom /ccess Preamble is transmitted on an "2ellH

< consider the 0andom /ccess procedure unsuccessfully completed.

< if in this 0andom /ccess procedure the 0andom /ccess Preamble was selected by M/2H

< based on the bac#off parameter in the 4 select a random bac#off time accordin to a uniform distributionbetween + and the 1ac#off Parameter EalueI

< delay the subse?uent 0andom /ccess transmission by the bac#off timeI

< proceed to the selection of a 0andom /ccess 0esource (see subclause :.,.*).

5.1.5 *o&te&tio& Reso"utio&

2ontention 0esolution is based on either 2

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< if the M/2 P94 is successfully decodedH

< stop mac-ContentionResolution&imerI

< if the M/2 P94 contains a 4 2ontention 0esolution &dentity M/2 control elementI and

< if the 4 2ontention 0esolution &dentity included in the M/2 control element matches the 222=

"94 transmitted in Ms3H

< consider this 2ontention 0esolution successful and finish the disassembly and demultiplein of

the M/2 P94I

< set the 2

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< apply the Timin /dvance 2ommand for the indicated T/GI

< start or restart the timeAlignment&imer associated with the indicated T/G.

< when a Timin /dvance 2ommand is received in a 0andom /ccess 0esponse messae for a servin cellbelonin to a T/GH

< if the 0andom /ccess Preamble was not selected by 4 M/2H

< apply the Timin /dvance 2ommand for this T/GI

< start or restart the timeAlignment&imer associated with this T/G.

< else if the timeAlignment&imerassociated with this T/G is not runninH

< apply the Timin /dvance 2ommand for this T/GI

< start the timeAlignment&imer associated with this T/GI

< when the contention resolution is considered not successful as described in subclause :.,.: stop

timeAlignment&imer associated with this T/G*

< elseH

< inore the received Timin /dvance 2ommand.

< when a timeAlignment&imerepiresH

< if the timeAlignment&imeris associated with the pT/GH

< flush all =/0> buffers for all servin cellsI

< notify 002 to release P422=D"0" for all servin cellsI

< clear any confiured downlin# assinments and uplin# rantsI

< consider all runnin timeAlignment&imers as epiredI

< else if the timeAlignment&imer isassociated with an sT/G then for all "ervin 2ells belonin to this T/G+

< flush all =/0> buffersI

< notify 002 to release "0".

The 4 shall not perform any uplin# transmission on a "ervin 2ell ecept the 0andom /ccess Preamble transmissionwhen the timeAlignment&imerassociated with the T/G to which this "ervin 2ell belons is not runnin. 8urthermore

when the timeAlignment&imerassociated with the pT/G is not runnin the 4 shall not perform any uplin#transmission on any "ervin 2ell ecept the 0andom /ccess Preamble transmission on the P2ell.

'OTH / 4 stores or maintains 'T/upon epiry of associated timeAlignment&imer where 'T/is defined in J@K.

The 4 applies a received Timin /dvance 2ommand M/2 control element and starts associatedtimeAlignment&imeralso when the timeAlignment&imeris not runnin.

5.3 -S*: data tra&ser

5.3.1 %ssi&8e&t re!e#tio&

9ownlin# assinments transmitted on the P922= indicate if there is a transmission on a 96

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< if this is the first downlin# assinment for this Temporary 2 information to the =/0>entity for this TT&.

< else if this "ervin 2ell is the P2ell and a downlin# assinment for this TT& has been received for the P2ell onthe P922= of the P2ell for the 4Vs "emi entityI

< set the =/0> Process &9 to the =/0> Process &9 associated with this TT&I

< consider the '9& bit to have been toledI

< indicate the presence of a confiured downlin# assinment and deliver the stored =/0> information to the=/0> entity for this TT&.

8or confiured downlin# assinments the =/0> Process &9 associated with this TT& is derived from the followine?uationH

3GPP

3GPP TS 3()3'& *&')3)+ '+&,!+-"&-Release &'

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=/0> Process &9 S Jfloor(2400'TFTT&DsemiPersist#chedInter'al/0)K modulo numberOfConf#P#-Processes

where 2400'TFTT&SJ("8' R ,+) Q subframe numberK.

hen the 4 needs to read 122= the 4 may based on the schedulin information from 002H

< if a downlin# assinment for this TT& has been received on the P922= for the "& processes. ach=/0> process is associated with a =/0> process identifier. The =/0> entity directs =/0> information andassociated T1s received on the 96

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The 4 then shallH

< if this is a new transmissionH

< attempt to decode the received data.

< else if this is a retransmissionH

< if the data for this T1 has not yet been successfully decodedH

< combine the received data with the data currently in the soft buffer for this T1 and attempt to decode thecombined data.

< if the data which the 4 attempted to decode was successfully decoded for this T1I or

< if the data for this T1 was successfully decoded beforeH

< if the =/0> process is e?ual to the broadcast processH

< deliver the decoded M/2 P94 to upper layers.

< else if this is the first successful decodin of the data for this T1H

< deliver the decoded M/2 P94 to the disassembly and demultiplein entity.

< enerate a positive ac#nowledement (/2%) of the data in this T1.

< elseH

< replace the data in the soft buffer for this T1 with the data which the 4 attempted to decode.

< enerate a neative ac#nowledement ('/2%) of the data in this T1.

< if the =/0> process is associated with a transmission indicated with a Temporary 2

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confiured semi information fromlower layers. hen the physical layer is confiured for uplin# spatial multiplein the M/2 layer can receive up totwo rants (one per =/0> process) for the same TT& from lower layers.

&f the 4 has a 2 entity for thesame =/0> process was either an uplin# rant received for the 4Vs "emi information is ,H

< consider the '9& for the correspondin =/0> process not to have been toledI

< deliver the uplin# rant and the associated =/0> information to the =/0> entity for this TT&.

< else if the '9& in the received =/0> information is +H

< if P922= contents indicate "P" releaseH

< clear the confiured uplin# rant (if any).

< elseH

< store the uplin# rant and the associated =/0> information as confiured uplin# rantI

< initialise (if not active) or re process to have been toledI

< deliver the confiured uplin# rant and the associated =/0> information to the =/0> entity for this TT&.

'OTH The period of confiured uplin# rants is epressed in TT&s.

'OTH &f the 4 receives both a rant in a 0andom /ccess 0esponse and a rant for its 2

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5.4.2 :%R; o#eratio&

5.4.2.1 :%R; e&tit7

There is one =/0> entity at the 4 for each "ervin 2ell with confiured uplin# which maintains a number of parallel=/0> processes allowin transmissions to ta#e place continuously while waitin for the =/0> feedbac# on the

successful or unsuccessful reception of previous transmissions.

The number of parallel =/0> processes per =/0> entity is specified in J*K clause B.

hen the physical layer is confiured for uplin# spatial multiplein J*K there are two =/0> processes associated

with a iven TT&. Otherwise there is one =/0> process associated with a iven TT&.

/t a iven TT& if an uplin# rant is indicated for the TT& the =/0> entity identifies the =/0> process(es) for whicha transmission should ta#e place. &t also routes the received =/0> feedbac# (/2%D'/2% information) M2" andresource relayed by the physical layer to the appropriate =/0> process(es).

hen TT& bundlin is confiured the parameter TT&F14'96F"& provides the number of TT&s of a TT& bundle.TT& bundlin operation relies on the =/0> entity for invo#in the same =/0> process for each transmission that is

part of the same bundle. ithin a bundle =/0> retransmissions are non buffer of the identifiedprocess is emptyI or

< if the uplin# rant was received in a 0andom /ccess 0esponseH

< if there is a M/2 P94 in the Ms3 buffer and the uplin# rant was received in a 0andom /ccess

0esponseH

< obtain the M/2 P94 to transmit from the Ms3 buffer.

< elseH

< obtain the M/2 P94 to transmit from the LMultiplein and assemblyL entityI

< deliver the M/2 P94 and the uplin# rant and the =/0> information to the identified =/0>processI

< instruct the identified =/0> process to trier a new transmission.

< elseH

< deliver the uplin# rant and the =/0> information (redundancy version) to the identified =/0>processI

3GPP

3GPP TS 3()3'& *&')3)+ '+&,!+-"'3Release &'

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< instruct the identified =/0> process to enerate an adaptive retransmission.

< else if the =/0> buffer of this =/0> process is not emptyH

< instruct the identified =/0> process to enerate a non

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< set =/0>F891/2% to '/2%I

< enerate a transmission as described below.

< else if the =/0> entity re?uests a nonF891/2% S '/2%H

< enerate a transmission as described below.

'OTH hen receivin a =/0> /2% alone the 4 #eeps the data in the =/0> buffer.

'OTH hen no 46atio&

The 6oical 2hannel Prioriti!ation procedure is applied when a new transmission is performed.

002 controls the schedulin of uplin# data by sinallin for each loical channelHpriorit3where an increasinpriorit3value indicates a lower prioritylevelprioritised"itRate which sets the Prioriti!ed 1it 0ate (P10) bucket#ize/urationwhich sets the 1uc#et "i!e 9uration (1"9).

The 4 shall maintain a variable 1j for each loical channel j. 1j shall be initiali!ed to !ero when the related loicalchannel is established and incremented by the product P10 W TT& duration for each TT& where P10 is Prioriti!ed 1it

0ate of loical channel j. =owever the value of 1j can never eceed the buc#et si!e and if the value of 1j is larer thanthe buc#et si!e of loical channel j it shall be set to the buc#et si!e. The buc#et si!e of a loical channel is e?ual toP10 W 1"9 where P10 and 1"9 are confiured by upper layers.

The 4 shall perform the followin 6oical 2hannel Prioriti!ation procedure when a new transmission is performedH

< The 4 shall allocate resources to the loical channels in the followin stepsH

3GPP

3GPP TS 3()3'& *&')3)+ '+&,!+-"'.Release &'

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< "tep ,H /ll the loical channels with 1j X + are allocated resources in a decreasin priority order. &f the P10of a radio bearer is set to infinityN the 4 shall allocate resources for all the data that is available fortransmission on the radio bearer before meetin the P10 of the lower priority radio bearer(s)I

< "tep *H the 4 shall decrement 1j by the total si!e of M/2 "94s served to loical channel j in "tep ,

'OTH The value of 1j can be neative.

< "tep 3H if any resources remain all the loical channels are served in a strict decreasin priority order(reardless of the value of 1j) until either the data for that loical channel or the 46 rant is ehausted

whichever comes first. 6oical channels confiured with e?ual priority should be served e?ually.

< The 4 shall also follow the rules below durin the schedulin procedures aboveH

< the 4 should not sement an 062 "94 (or partially transmitted "94 or retransmitted 062 P94) if the

whole "94 (or partially transmitted "94 or retransmitted 062 P94) fits into the remainin resourcesI

< if the 4 sements an 062 "94 from the loical channel it shall maimi!e the si!e of the sement to fillthe rant as much as possibleI

< the 4 should maimise the transmission of data.

< if the 4 is iven an 46 rant si!e that is e?ual to or larer than - bytes while havin data available fortransmission the 4 shall not transmit only paddin 1"0 andDor paddin (unless the 46 rant si!e is lessthan @ bytes and an /M9 P94 sement needs to be transmitted).

The 4 shall not transmit data for a loical channel correspondin to a radio bearer that is suspended (the conditions forwhen a radio bearer is considered suspended are defined in JBK).

8or the 6oical 2hannel Prioriti!ation procedure the 4 shall ta#e into account the followin relative priority indecreasin orderH

< M/2 control element for 2

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< if no 46

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< else report "hort 1"0.

< else if the number of paddin bits is e?ual to or larer than the si!e of the 6on 1"0 plus its subheader report6on 1"0.

&f the 1uffer "tatus reportin procedure determines that at least one 1"0 has been triered and not cancelledH

< if the 4 has 46 resources allocated for new transmission for this TT&H

< instruct the Multiplein and /ssembly procedure to enerate the 1"0 M/2 control element(s)I

< start or restartperiodic"#R-&imerecept when all the enerated 1"0s are Truncated 1"0sI

< start or restart retx"#R-&imer.

< else if a 0eular 1"0 has been trieredH

< if an uplin# rant is not confiured or the 0eular 1"0 was not triered due to data becomin available fortransmission for a loical channel for which loical channel "0 mas#in (logicalChannel#R-Mask) is setupby upper layersH

< a "chedulin 0e?uest shall be triered.

/ M/2 P94 shall contain at most one M/2 1"0 control element even when multiple events trier a 1"0 by thetime a 1"0 can be transmitted in which case the 0eular 1"0 and the Periodic 1"0 shall have precedence over thepaddin 1"0.

The 4 shall restart retx"#R-&imerupon indication of a rant for transmission of new data on any 46

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< activation of an "2ell with confiured uplin#.

- prohibitPHR-&imerepires or has epired when the 4 has 46 resources for new transmission and thefollowin is true in this TT& for any of the activated "ervin 2ells with confiured uplin#H

< there are 46 resources allocated for transmission or there is a P422= transmission on this cell and there?uired power bac#off due to power manaement (as allowed by P

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< if a T1 on the P2= has been successfully decodedH

< deliver the decoded M/2 P94 to upper layers.

5.6 retransmission can occur and there is data in the correspondin =/0>bufferI or

< a P922= indicatin a new transmission addressed to the 2

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< if drx#hortC3cle&imer epires in this subframeH

< use the 6on 90A cycle.

< if a 6on 90A 2ommand M/2 control element is receivedH

< stop drx#hortC3cle&imerI

use the 6on 90A cycle.

< &f the "hort 90A 2ycle is used and J("8' R ,+) Q subframe numberK modulo (short/R5-C3cle) S(drx#tartOffset) modulo (short/R5-C3cle)I or

< if the 6on 90A 2ycle is used and J("8' R ,+) Q subframe numberK modulo (long/R5-C3cle) S drx#tartOffsetH

< start on/uration&imer.

< durin the /ctive Time for a P922=

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'OTH &n case of downlin# spatial multiplein if a T1 is received while the =/0> 0TT Timer is runnin andthe previous transmission of the same T1 was received at least ' subframes before the current subframe(where ' corresponds to the =/0> 0TT Timer) the 4 should process it and restart the =/0> 0TTTimer.

5.B M%* re!o&iuratio&hen a reconfiuration of the M/2 entity is re?uested by upper layers the 4 shallH

< upon addition of an "2ell initiali!e the correspondin =/0> entityI

< upon removal of an "2ell remove the correspondin =/0> entityI

< for timers apply the new value when the timer is (re)startedI

< when counters are initiali!ed apply the new maimum parameter valueI

< for other parameters apply immediately the confiurations received from upper layers.

5.9 M%* Reset

&f a reset of the M/2 entity is re?uested by upper layers the 4 shallH

< initiali!e 1j for each loical channel to !eroI

< stop (if runnin) all timersI

< consider all timeAlignment&imersas epired and perform the correspondin actions in subclause :.*I

< set the '9&s for all uplin# =/0> processes to the value +I

< stop if any onoin 0/2= procedureI

< discard eplicitly sinalled ra-PreambleIndexand ra-PRACH-MaskIndex if anyI

< flush Ms3 bufferI

< cancel if any triered "chedulin 0e?uest procedureI

< cancel if any triered 1uffer "tatus 0eportin procedureI

< cancel if any triered Power =eadroom 0eportin procedureI

< flush the soft buffers for all 96 =/0> processesI

< for each 96 =/0> process consider the net received transmission for a T1 as the very first transmissionI

< release if any Temporary 2

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hen "emi

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5.12 M*: re!e#tio&

M2= transmission may occur in subframes confiured by upper layer for M22= or MT2= transmission. 8or each

such subframe upper layer indicates ifsignallingMC#or dataMC#applies. The transmission of an M2= occurs in a setof subframes defined byPMCH-Config. /n M2= "chedulin &nformation M/2 control element is included in the firstsubframe allocated to the M2= within the M2= schedulin period to indicate the position of each MT2= and unused

subframes on the M2=. The 4 shall assume that the first scheduled MT2= starts immediately after the M22= or theM2= "chedulin &nformation M/2 control element if the M22= is not present and the other scheduled MT2=(s)start immediately after the previous MT2= at the earliest in the subframe where the previous MT2= stops. hen the

4 needs to receive M2= the 4 shallH

< attempt to decode the T1 on the M2=I

< if a T1 on the M2= has been successfully decodedH

< demultiple the M/2 P94 and deliver the M/2 "94(s) to upper layers.

5.13 %!tiatio&ea!tiatio& o S*e""s

&f the 4 is confiured with one or more "2ells the networ# may activate and deactivate the confiured "2ells. TheP2ell is always activated. The networ# activates and deactivates the "2ell(s) by sendin the /ctivationD9eactivationM/2 control element described in subclause ;.,.3.B. 8urthermore the 4 maintains asCell/eacti'ation&imertimer

per confiured "2ell and deactivates the associated "2ell upon its epiry. The same initial timer value applies to eachinstance of thesCell/eacti'ation&imerand it is confiured by 002. The confiured "2ells are initially deactivatedupon addition and after a handover.

The 4 shall for each TT& and for each confiured "2ellH

< if the 4 receives an /ctivationD9eactivation M/2 control element in this TT& activatin the "2ell the 4 shallin the TT& accordin to the timin defined in J*KH

< activate the "2ellI i.e. apply normal "2ell operation includinH

< "0" transmissions on the "2ellI

< 2>&DPM&D0&DPT& reportin for the "2ellI

< P922= monitorin on the "2ellI

< P922= monitorin for the "2ell.

< start or restart thesCell/eacti'ation&imerassociated with the "2ellI

< trier P=0 accordin to subclause :.-.;.

< else if the 4 receives an /ctivationD9eactivation M/2 control element in this TT& deactivatin the "2ellI or

< if thesCell/eacti'ation&imerassociated with the activated "2ell epires in this TT&H

< in the TT& accordin to the timin defined in J*KH

< deactivate the "2ellI

< stop thesCell/eacti'ation&imerassociated with the "2ellI

< flush all =/0> buffers associated with the "2ell.

< if P922= on the activated "2ell indicates an uplin# rant or downlin# assinmentI or

< if P922= on the "ervin 2ell schedulin the activated "2ell indicates an uplin# rant or a downlin# assinmentfor the activated "2ellH

< restart thesCell/eacti'ation&imerassociated with the "2ellI

< if the "2ell is deactivatedH

3GPP

3GPP TS 3()3'& *&')3)+ '+&,!+-"3,Release &'

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< not transmit "0" on the "2ellI

< not report 2>&DPM&D0&DPT& for the "2ellI

< not transmit on 46

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/i0ure ()&)'!&1 R

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< "hort 1"0 and Truncated 1"0 formatH one 62G &9 field and one correspondin 1uffer "i!e field (fiure;.,.3.,

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Ta8le ()&)3)&!&1 9uffer si?e levels for 9SR

=nde> 9uffer Si?e 9S" value @84tes =nde> 9uffer Si?e 9S" value @84tes

0

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Ta8le ()&)3)&!'1 E>tended 9uffer si?e levels for 9SR

=nde> 9uffer Si?e 9S" value @84tes =nde> 9uffer Si?e 9S" value @84tes

+ 1" S + 3* -C-+ U 1" US ;+@-

, + U 1" US ,+ 33 ;+@- U 1" US @-;C

* ,+ U 1" US ,3 3- @-;C U 1" US C,B:

3 ,3 U 1" US ,; 3: C,B: U 1" US ,,*C-

- ,; U 1" US ,C 3; ,,*C- U 1" US ,3BBB

: ,C U 1" US *3 3@ ,3BBB U 1" US ,@+@@

; *3 U 1" US *C 3B ,@+@@ U 1" US *+CCC

@ *C U 1" US 3: 3C *+CCC U 1" US *:B**

B 3: U 1" US -3 -+ *:B** U 1" US 3,@:*

C -3 U 1" US :3 -, 3,@:* U 1" US 3C+-:

,+ :3 U 1" US ;: -* 3C+-: U 1" US -B+,*

,, ;: U 1" US B+ -3 -B+,* U 1" US :C+3C

,* B+ U 1" US CB -- :C+3C U 1" US @*:CB

,3 CB U 1" US ,*+ -: @*:CB U 1" US BC*@*

,- ,*+ U 1" US ,-@ -; BC*@* U 1" US ,+C@@-

,: ,-@ U 1" US ,B, -@ ,+C@@- U 1" US ,3-CB;

,; ,B, U 1" US **3 -B ,3-CB; U 1" US ,;:CBC

,@ **3 U 1" US *@- -C ,;:CBC U 1" US *+-,,,

,B*@- U 1" US 33@

:+*+-,,, U 1" US *:+CC+

,C 33@ U 1" US -,- :, *:+CC+ U 1" US 3+B;3-

*+ -,- U 1" US :+C :* 3+B;3- U 1" US 3@C:,C

*, :+C U 1" US ;*: :3 3@C:,C U 1" US -;;;B3

** ;*: U 1" US @;C :- -;;;B3 U 1" US :@3B;;

*3 @;C U 1" US C-: :: :@3B;; U 1" US @+:;;;

*- C-: U 1" US ,,;* :; @+:;;; U 1" US B;@@3@

*: ,,;* U 1" US ,-*C :@ B;@@3@ U 1" US ,+;@+3,

*; ,-*C U 1" US ,@:@ :B ,+;@+3, U 1" US ,3,*+C@

*@ ,@:@ U 1" US *,;, :C ,3,*+C@ U 1" US ,;,3--@*B *,;, U 1" US *;:@ ;+ ,;,3--@ U 1" US ,CB-++C

*C *;:@ U 1" US 3*;@ ;, ,CB-++C U 1" US *-3C;@B

3+ 3*;@ U 1" US -+,@ ;* *-3C;@B U 1" US 3++++++

3, -+,@ U 1" US-C-+ ;3 1" X 3++++++

6.1.3.2 *-RT M%* *o&tro" +"e8e&t

The 2

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/i0ure ()&)3)'!&1 %!RNT= #A% control ele$ent

6.1.3.3 R *o88a&d M%* *o&tro" +"e8e&t

The 90A 2ommand M/2 control element is identified by a M/2 P94 subheader with 62&9 as specified in table;.*.,

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< Power =eadroom (P=)H this field indicates the power headroom level. The lenth of the field is ; bits. Thereported P= and the correspondin power headroom levels are shown in Table ;.,.3.;

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/i0ure ()&)3)(a!&1 *oid

/i0ure ()&)3)(a!'1 E>tended PR #A% %ontrol Ele$ent

Ta8le ()&)3)(a!&1 No$inal UE trans$it power level for E>tended PR

P%#A7c No$inal UE trans$it power level

0 P*M%*00

1 P*M%*01

2 P*M%*02

@ @61 P*M%*61

62 P*M%*62

63 P*M%*63

6.1.3./ M*: S!$edu"i& &or8atio& M%* *o&tro" +"e8e&t

The M2= "chedulin &nformation M/2 2ontrol lement illustrated in 8iure ;.,.3.@

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/i0ure ()&)3)5!&1 #% Schedulin0 =nfor$ation #A% control ele$ent

6.1.3.B %!tiatio&ea!tiatio& M%* *o&tro" +"e8e&t

The /ctivationD9eactivation M/2 control element is identified by a M/2 P94 subheader with 62&9 as specified in

table ;.*.,

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/ M/2 P94 header consists of one or more M/2 P94 subheadersI each subheader correspondin to a M/2 0/0ecept for the 1ac#off &ndicator subheader. &f included the 1ac#off &ndicator subheader is only included once and is thefirst subheader included within the M/2 P94 header.

/ M/2 P94 subheader consists of the three header fields DTD0/P&9 (as described in fiure ;.,.:

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6.2 or8ats a&d #ara8eters

6.2.1 M%* $eader or -S*:, U-S*: a&d M*:

The M/2 header is of variable si!e and consists of the followin fieldsH

< 62&9H The 6oical 2hannel &9 field identifies the loical channel instance of the correspondin M/2 "94 orthe type of the correspondin M/2 control element or paddin as described in tables ;.*., Si?e of :en0th field in 8its"

0 /1 15

3GPP

3GPP TS 3()3'& *&')3)+ '+&,!+-",.Release &'

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Ta8le ()')&!, *alues of :%=2 for #%

=nde> :%=2 values

00000 M**: (see &ote)

00001-11100 MT*:

11101 Resered

11110 M*: S!$edu"i& &or8atio&

11111 Paddi&

'OTH &f there is no M22= on M2= an

MT2= could use this value.

6.2.2 M%* $eader or Ra&do8 %!!ess Res#o&se

The M/2 header is of variable si!e and consists of the followin fieldsH

< H The tension field is a fla indicatin if more fields are present in the M/2 header or not. The field is set

to L,L to indicate at least another set of DTD0/P&9 fields follows. The field is set to L+L to indicate that aM/2 0/0 or paddin starts at the net byteI

< TH The Type field is a fla indicatin whether the M/2 subheader contains a 0andom /ccess &9 or a 1ac#off&ndicator. The T field is set to +N to indicate the presence of a 1ac#off &ndicator field in the subheader (1&). TheT field is set to ,N to indicate the presence of a 0andom /ccess Preamble &9 field in the subheader (0/P&9)I

< 0H 0eserved bit set to L+LI

< 1&H The 1ac#off &ndicator field identifies the overload condition in the cell. The si!e of the 1& field is - bitsI

< 0/P&9H The 0andom /ccess Preamble &9entitfier field identifies the transmitted 0andom /ccess Preamble (seesubclause :.,.3). The si!e of the 0/P&9 field is ; bits.

The M/2 header and subheaders are octet alined.

6.2.3 M%* #a7"oad or Ra&do8 %!!ess Res#o&se

The M/2 0/0 is of fied si!e and consists of the followin fieldsH

< 0H 0eserved bit set to L+LI

< Timin /dvance 2ommandH The Timin /dvance 2ommand field indicates the inde value &A(+ , *Z ,*B*)used to control the amount of timin adjustment that 4 has to apply (see subclause -.*.3 of J*K). The si!e of theTimin /dvance 2ommand field is ,, bitsI

< 46 GrantH The 4p6in# Grant field indicates the resources to be used on the uplin# (see subclause ;.* of J*K).The si!e of the 46 Grant field is *+ bitsI

< Temporary 2

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Ta8le 5)&!&1 RNT= values)

*alue he>a!deci$al" RNT=

0000 %

0001-003* R%-RT, *-RT, Se8i-Persiste&t S!$edu"i& *-RT, Te8#orar7*-RT, eMT%-RT, TP*-PU**:-RT a&d TP*-PUS*:-RT

(see &ote)

003-3 *-RT, Se8i-Persiste&t S!$edu"i& *-RT, eMT%-RT,Te8#orar7 *-RT, TP*-PU**:-RT a&d TP*-PUS*:-RT

4-* Resered or uture use

M-RT

+ P-RT

S-RT

'OTH / 4 uses the same 2

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Ta8le 5)'!&1 9ackoff Para$eter values)

=nde> 9ackoff Para$eter value $s"

0 0

1 10

2 20

3 30

4 405 60

6 B0

/ 120

B 160

9 240

10 320

11 4B0

12 960

13 Resered

14 Resered

15 Resered

The reserved values of the bac#off parameter if received by the current release version 4s shall be ta#en as C;+ ms.

/.3 PR%*: Mas= &de a"ues

Ta8le 5)3!&1 PRA% #ask =nde> values

PRA%#ask =nde>

Allowed PRA% /22" Allowed PRA% T22"

0 %"" %""

1 PR%*: Resour!e &de 0 PR%*: Resour!e &de 0

2 PR%*: Resour!e &de 1 PR%*: Resour!e &de 1

3 PR%*: Resour!e &de 2 PR%*: Resour!e &de 2

4 PR%*: Resour!e &de 3 PR%*: Resour!e &de 35 PR%*: Resour!e &de 4 PR%*: Resour!e &de 4

6 PR%*: Resour!e &de 5 PR%*: Resour!e &de 5

/ PR%*: Resour!e &de 6 Resered

B PR%*: Resour!e &de / Resered

9 PR%*: Resour!e &de B Resered

10 PR%*: Resour!e &de 9 Resered

11 +er7, i& t$e ti8e do8ai&, ee& PR%*: o##ortu&it71stPR%*: Resour!e &de i& su'ra8e

+er7, i& t$e ti8e do8ai&, ee& PR%*: o##ortu&it71stPR%*: Resour!e &de i& su'ra8e

12 +er7, i& t$e ti8e do8ai&, odd PR%*: o##ortu&it71stPR%*: Resour!e &de i& su'ra8e

+er7, i& t$e ti8e do8ai&, odd PR%*: o##ortu&it71stPR%*: Resour!e &de i& su'ra8e

13 Resered 1stPR%*: Resour!e &de i& su'ra8e

14 Resered 2&dPR%*: Resour!e &de i& su'ra8e

15 Resered 3rd PR%*: Resour!e &de i& su'ra8e

/.4 Su'ra8eEset a"ues

"ubframeFOffset values are presented in Table @.-

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Ta8le 5),!&1 Su8fra$eBCffset values

T22 U:

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%&&e % (&or8atie):a&d"i& o 8easure8e&t a#s

&n this specification the subframes which cannot be used for transmission accordin to subclause B.,.*., of JCK are alsoconsidered as part of measurement aps in uplin#. Measurement aps are defined in JCK.

&n a subframe that is part of a measurement ap the 4 shall not perform the transmission of =/0> feedbac# and

2>&DPM&D0&DPT& and "0" shall not be reported.

3GPP

3GPP TS 3()3'& *&')3)+ '+&,!+-".+Release &'

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%&&e < (&or8atie)*o&te&tio& reso"utio& or R%*: a!!ess

hen chec#in whether contention resolution was successful a 4 considers the M/2 header structures shown belowfor the processin of a M/2 P94 containin a 4 2ontention 0esolution &dentity M/2 control element.

*64 (,,,++)R R + *64 (,,,++)R R +

*64 (+++++)R R +

*64 (,,,++)R R +

*64 (+++++)R R +

*64 (,,,,,)R R +

*64 (,,,++)R R +

*64 (+++++)R R +

*64 (,,,,,)R R +

*64 (,,,,,)R R +

*64 (,,,++)R R +

*64 (+++++)R R +

*64 (,,,,,)R R +

*64 (,,,++)R R +

*64 (+++++)R R +

*64 (,,,,,)R R +

%ase &, M%* su'$eader 3or M%* !o&tro" e"e8e&t M%* su'$eader 3or M%* !o&tro" e"e8e&t

M%* su'$eader 3or M%* S4U (***:)

M%* su'$eader 3or si&2"e-'7te #addi&2

M%* su'$eader 3or M%* !o&tro" e"e8e&t M%* su'$eader 3or M%* S4U (***:)

M%* su'$eaders 3or to-'7te #addi&2

M%* su'$eader 3or M%* !o&tro" e"e8e&t M%* su'$eader 3or M%* S4U (***:)

M%* su'$eader 3or M%* !o&tro" e"e8e&t M%* su'$eader (15-'its -3ie"d) 3or M%* S4U (***:)

M%* su'$eader 3or #addi&2

M%* su'$eader 3or M%* !o&tro" e"e8e&t M%* su'$eader (/-'its -3ie"d) 3or M%* S4U (***:)

M%* su'$eader 3or #addi&2

%ase ',

%ase 3, %ase ,,

%ase (,%ase .,

3GPP

3GPP TS 3()3'& *&')3)+ '+&,!+-".&Release &'

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%&&e * (i&or8atie)&te&ded U+ 'e$aiour or R Ti8ers

hen a 90A timer is set to a value of A and n denotes the subframe in which the related event is triered accordinto the subclause :.@ the intended behaviours of each 90A timer are presented in the Table 27 4 $eans includin0 su8fra$e > and 4"

dr-&a!tiit7Ti8er T$e U+ 8o&itors P**: i& P**:-su'ra8es duri& t$e su'ra8es I&1,&8J.T$e U+ starts or restarts drS$ort*7!"eTi8er, a&d uses S$ort R *7!"e i&t$e su'ra8e &81, i !o&iured.

8a!-*o&te&tio&Reso"utio&Ti8er T$e U+ 8o&itors P**: i& P**:-su'ra8es duri& t$e su'ra8es I&1,&J.

dr-Retra&s8issio&Ti8er T$e U+ 8o&itors P**: i& P**:-su'ra8es duri& t$e su'ra8es I&,

&8-1J.o&uratio&Ti8er T$e U+ 8o&itors P**: i& P**:-su'ra8es duri& t$e su'ra8es I&,&8-1J.

drS$ort*7!"eTi8er T$e U+ uses t$e S$ort R *7!"e duri& t$e su'ra8es I&, &-1J.T$e U+ starts to use t$e o& R *7!"e i& t$e su'ra8e &.

:%R; RTT Ti8er T$e U+ starts dr-Retra&s8issio&Ti8er i& t$e su'ra8e &, i &eeded.

ET+ or , 8 is eAua" to K or T, 8 is eAua" to t$e 8i&i8u8 &u8'er o su'ra8es so t$at P**:-su'ra8es are i&!"uded duri& t$e su'ra8es I, 7J.

ET+ % U+ !o&iured it$ eMT% 8o&itors P**: i& so8e su'ra8e(s) i& additio& to P**:-su'ra8es,as s#e!iied i& su'!"ause 5./.

8or dr

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%&&e (i&or8atie)*$a&e $istor7

%han0e histor42ate TSG D TSG 2oc) %R Rev Su8jectatio& (Tdo! R2-0/2643)

0.1.0

200/-06 R%2L5B'is

R2-0/2994

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RP-41 RP-0B0690 002/ - :a&d"i& o Se8i-Persiste&t ra&ts a&d assi&8e&ts B.2.0 B.3.0

RP-41 RP-0B0690 0051 1 *orre!tio&s re"ati& to R%*: B.2.0 B.3.0

RP-41 RP-0B0690 005B 1 U *$a&&e" Prioritisatio& B.2.0 B.3.0

RP-41 RP-0B0690 00/1 2 *orre!tio&s re"ati& to R%*: #artitio&i& B.2.0 B.3.0

RP-41 RP-0B0690 0091 - *orre!tio& o& Ra&do8 %!!ess Res#o&se re!e#tio& 'e$aiour B.2.0 B.3.0

RP-41 RP-0B0690 0103 - U##er "i8it o "oi!a" !$a&&e" id B.2.0 B.3.0

RP-41 RP-0B0690 0104 - *"arii!atio&s a&d *orre!tio&s or :%R; o#eratio& at T%T e#ir7

a&d R%*: !o&te&tio& reso"utio&

B.2.0 B.3.0

200B-12 RP-42 RP-0B101B 0105 - *R0105 to 36.321 IRe"-BJ o& P:R Periodi! Ti8er Start B.3.0 B.4.0

RP-42 RP-0B101B 0106 1 Pro#osed R1 o *R0106 to 36.321 IRe"-BJ o& P:R Reere&!e B.3.0 B.4.0

RP-42 RP-0B101B 010/ 1 *R 010/ to 36.321 &tera!tio&s 'etee& 8easure8e&t a# a&dMs3 tra&s8issio&

B.3.0 B.4.0

RP-42 RP-0B101B 010B 2 Pro#osed R1 o *R010B to 36.321 IRe"-BJ o& P:R Re#orti&Va"ues

B.3.0 B.4.0

RP-42 RP-0B101B 0109 - *orre!tio& re"ati& to eAua" #riorities B.3.0 B.4.0

RP-42 RP-0B101B 0110 - *R 0110 to 36.321 o& *orre!tio& to P:R B.3.0 B.4.0

RP-42 RP-0B101B 0112 1 *R0112r1 to 36.321 IRe"-BJ *orre!tio& to

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55/57

RP-42 RP-0B101B 0239 - RV setti& B.3.0 B.4.0

RP-42 RP-0B101B 0240 2 Prea8'"e rou# se"e!tio& B.3.0 B.4.0

RP-42 RP-0B101B 0241 - Use o dedi!ated #rea8'"es ater :E !o8#"ete B.3.0 B.4.0

RP-42 RP-0B101B 0242 - &trodu!tio& o :%R; RTT Ti8er B.3.0 B.4.0

RP-42 RP-0B101B 0243 - *orre!tio& to R !o&iuratio& B.3.0 B.4.0

2009-03 RP-43 RP-09012B 0245 - *R to 36.321 o& atio& o Prioriti>atio& B.4.0 B.5.0

RP-43 RP-09012B 0249 - o!a" %*i& E#tio&a"it7 M%* *R B.4.0 B.5.0

RP-43 RP-09012B 0250 1 Positio& o t$e

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56/57

RP-44 RP-090513 0369 - *orre!tio& to U#"i&= ra&t '7 te8#orar7 *-RT B.5.0 B.6.0

RP-44 RP-090513 03/0 - *"arii!atio& o& si8u"ta&eous re!e#tio& o R%-RT a&d *-RT B.5.0 B.6.0

RP-44 RP-090513 03/4 - *orre!tio& o& ti8e%"i&8e&tTi8er a"idit7 i& M%* B.5.0 B.6.0

RP-44 RP-090513 03/6 1 *R or M%* #addi& B.5.0 B.6.0

RP-44 RP-090513 03// - *orre!tio& to du#"i!ate re!e#tio& o T% !o88a&d (2&d 8et$od) B.5.0 B.6.0

2009-09 RP-45 RP-090906 03/9 - *orre!tio& to se8a&ti!s B.6.0 B./.0

RP-45 RP-090906 03B0 1 Mi&or !orre!tio&s to 36.321 B.6.0 B./.0

RP-45 RP-090906 03B1 2 U+ 'e$aiour $e& M

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57/57

RP-5B RP-12195/ 0624 2 *R to 36.321 o& %&&e or R Ti8ers 11.0.0 11.1.0

2013-03 RP-59 RP-13024B 0629 2 Re8oi& o#tio&a"it7 o& *SSRS tra&s8issio& duri& tra&sie&tstate

11.1.0 11.2.0

RP-59 RP-130245 0630 - *"arii!atio& o& t$e P**:-su'ra8e or $a"-du#"e T U+ 11.1.0 11.2.0

RP-59 RP-13024B 0649 - rat *R to 36 321 or *"arii!atio& o P**:-su'ra8e dei&itio&i& Re"-11

11.1.0 11.2.0

RP-59 RP-130241 0659 - *orre!tio& or TM10 u&i!ast su##ort i& M