3GPP TS 36213 Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer procedures

8/10/2019 3GPP TS 36213 Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer procedures

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3GPP TS 36.213 V10.11.0 (2013-12)Technical Specification

3rdGeneration Partnership Project;Technical Specification Group Radio Access Network;Evolved Universal Terrestrial Radio Access E!UTRA";

Ph#sical la#er proceduresRelease $%"

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 Oranisational Partners and shall not be implemented.

This !pecification is provided for future development wor" within 3GPP only. The Oranisational Partners accept no liability for any use of this

!pecification.!pecifications and reports for implementation of the 3GPPTMsystem should be obtained via the 3GPP Oranisational Partners# Publications Offices.


2/1273GPP

$eywordsUMTS, radio, layer 1

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o&te&ts

7oreword..........................................................................................................................................................

, !cope......................................................................................................................................................

* /eferences..............................................................................................................................................

3 8efinitions- symbols- and abbreviations.................................................................................................3., !ymbols...............................................................................................................................................................3.* bbreviations.......................................................................................................................................................

9 !ynchronisation procedures....................................................................................................................9., 1ell search...........................................................................................................................................................9.* Timin synchronisation.......................................................................................................................................9.*., /adio lin" monitorin....................................................................................................................................9.*.* %nter:cell synchronisation...............................................................................................................................9.*.3 Transmission timin adjustments...................................................................................................................

9.3 Timin for !econdary 1ell ctivation ; 8eactivation.........................................................................................

< Power control..........................................................................................................................................,., Timin..........................................................................................................................................................>.* /andom ccess /esponse Grant.......................................................................................................................

? Physical downlin" shared channel related procedures..........................................................................?., 2 procedure for receivin the physical downlin" shared channel..................................................................?.,., !inle:antenna port scheme................................................................................................................... ......?.,.* Transmit diversity scheme..........................................................................................................................?.,.3 5are delay 188 scheme...........................................................................................................................?.,.9 1losed:loop spatial multiple'in scheme...................................................................................................?.,.< Multi:user M%MO scheme..........................................................................................................................

?.,.., /esource allocation type +.....................................................................................................................?.,.>.* /esource allocation type ,.....................................................................................................................?.,.>.3 /esource allocation type *.....................................................................................................................

?.,.>.9 P8!1A startin position........................................................................................................................?.,.>.< P/0 bundlin.........................................................................................................................................?.,.? Modulation order and transport bloc" sie determination..........................................................................?.,.?., Modulation order determination.............................................................................................................?.,.?.* Transport bloc" sie determination........................................................................................................?.,.?.*., Transport bloc"s not mapped to two or more layer spatial multiple'in.........................................

?.,.?.*.* Transport bloc"s mapped to two:layer spatial multiple'in............................................................?.,.?.*.3 Transport bloc"s mapped for 81% 7ormat ,1..................................................................................

?.,.?.*.9 Transport bloc"s mapped to three:layer spatial multiple'in..........................................................?.,.?.*.< Transport bloc"s mapped to four:layer spatial multiple'in............................................................?.,.?.3 /edundancy Bersion determination for 7ormat ,1................................................................................?.,.@ !torin soft channel bits..............................................................................................................................

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?.* 2 procedure for reportin 1hannel !tate %nformation (1!%)..........................................................................?.*., periodic 1!% /eportin usin P!1A......................................................................................................?.*.* Periodic 1!% /eportin usin P11A........................................................................................................?.*.3 1hannel Cuality indicator (1D%) definition..................................................................................................

?.*.9 Precodin Matri' %ndicator (PM%) definition...............................................................................................?.*.< 1hannel:!tate %nformation E /eference !inal (1!%:/!) definition...........................................................

?.3 2 procedure for reportin A/D:1$.........................................................................................................

@ Physical uplin" shared channel related procedures...............................................................................@.+ 2 procedure for transmittin the physical uplin" shared channel...................................................................@.+., !inle:antenna port scheme................................................................................................................... ......@.+.* 1losed:loop spatial multiple'in scheme...................................................................................................@., /esource llocation for P811A with uplin" 81% 7ormat...............................................................................

@.,., plin" /esource allocation type +.........................................................................................................@.,.* plin" /esource allocation type ,.........................................................................................................@.* 2 soundin procedure.....................................................................................................................................@.3 2 A/D:1$ procedure...............................................................................................................................@.9 2 P!1A Aoppin procedure........................................................................................................................@.9., Type , P!1A Aoppin..............................................................................................................................

@.9.* Type * P!1A Aoppin..............................................................................................................................@.< 2 /eference !ymbol procedure......................................................................................................................@.> Modulation order- redundancy version and transport bloc" sie determination................................................@.>., Modulation order and redundancy version determination..........................................................................@.>.* Transport bloc" sie determination.............................................................................................................@.>.3 1ontrol information M1! offset determination..........................................................................................

@.? 2 Transmit ntenna !election........................................................................................................................

F Physical downlin" control channel procedures.....................................................................................F., 2 procedure for determinin physical downlin" control channel assinment................................................F.,., P811A ssinment Procedure............................................................................................................. ......F.,.* PA%1A ssinment Procedure...................................................................................................... ......... .....F.,.3 1ontrol 7ormat %ndicator assinment procedure........................................................................... ......... .....F.* P811A validation for semi:persistent schedulin............................................................................................

F.3 P811A control information procedure.............................................................................................................

,+ Physical uplin" control channel procedures..........................................................................................,+., 2 procedure for determinin physical uplin" control channel assinment.....................................................

,+.,., P11A format information.......................................................................................................................,+.,.* 788 A/D:1$ feedbac" procedures...................................................................................................,+.,.*., 788 A/D:1$ procedure for one confiured servin cell............................................................,+.,.*.* 788 A/D:1$ procedures for more than one confiured servin cell..........................................,+.,.*.*., P11A format ,b with channel selection A/D:1$ procedure..............................................,+.,.*.*.* P11A format 3 A/D:1$ procedure.....................................................................................

,+.,.3 T88 A/D:1$ feedbac" procedures...................................................................................................,+.,.3., T88 A/D:1$ procedure for one confiured servin cell...................................................... ......,+.,.3.* T88 A/D:1$ procedure for more than one confiured servin cell.............................. ......... ....

,+.,.3.*., P11A format ,b with channel selection A/D:1$ procedure...............................................,+.,.3.*.* P11A format 3 A/D:1$ procedure.....................................................................................

,+.,.9 A/D:1$ /epetition procedure............................................................................................................,+.,.< !chedulin /eCuest (!/) procedure................................................................................................... .......,+.* plin" A/D:1$ timin.............................................................................................................................

,, Physical multicast channel related procedures....................................................................................,,., 2 procedure for receivin the physical multicast channel............................................................................,,.* 2 procedure for receivin M11A chane notification.................................................................................

Annex A (informative): Change history............................................................................................

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oreord

This Technical !pecification (T!) 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 this present document- it will be re:released by the T!G with anidentifyin chane of release date and an increase in version number as follows

Bersion '.y.

where

' the first diit

, presented to T!G for informationH

* presented to T!G for approvalH

3 or reater indicates T!G approved document under chane control.

y the second diit is incremented for all chanes of substance- i.e. technical enhancements- corrections-updates- etc.

the third diit is incremented when editorial only chanes have been incorporated in the document.

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1 S!o#e

The present document specifies and establishes the characteristics of the physicals layer procedures in the 788 andT88 modes of 2:T/.

2 Reere&!es

The followin documents contain provisions which- throuh reference in this te't- constitute provisions of the presentdocument.

/eferences are either specific (identified by date of publication- edition number- version number- etc.) ornon:specific.

7or a specific reference- subseCuent revisions do not apply.

7or a non:specific reference- the latest version applies. %n the case of a reference to a 3GPP document (includina G!M document)- a non:specific reference implicitly refers to the latest version of that document in the same

Release as the present document.

I,J 3GPP T/ *,.F+.*+, K2volved niversal Terrestrial /adio ccess (2:T/)H Physical 5ayer EGeneral 8escriptionL

I3J 3GPP T! 3>.*,, K2volved niversal Terrestrial /adio ccess (2:T/)H Physical channels andmodulationL

I9J 3GPP T! 3>.*,* K2volved niversal Terrestrial /adio ccess (2:T/)H Multiple'in andchannel codinL

I.*,9 K2volved niversal Terrestrial /adio ccess (2:T/)H Physical layer EMeasurementsL

I>J 3GPP T! 3>.,+, K2volved niversal Terrestrial /adio ccess (2:T/)H ser 2Cuipment (2)

radio transmission and receptionL

I?J 3GPP T! 3>.,+9 K2volved niversal Terrestrial /adio ccess (2:T/)H 0ase !tation (0!)radio transmission and receptionL

I@J 3GPP T!3>.3*,- K2volved niversal Terrestrial /adio ccess (2:T/)H Medium ccess 1ontrol

(M1) protocol specificationL

IFJ 3GPP T!3>.9*3- K2volved niversal Terrestrial /adio ccess (2:T/)H =* pplication

Protocol (=*P)L

I,+J 3GPP T!3>.,33- K2volved niversal Terrestrial /adio ccess (2:T/)H /eCuirements forsupport of radio resource manaementL

I,,J 3GPP T!3>.33,- K2volved niversal Terrestrial /adio ccess (2:T/)H /adio /esource 1ontrol(//1) protocol specificationL

I,*J 3GPP T! 3>.3+> 2volved niversal Terrestrial /adio ccess (2:T/)H ser 2Cuipment (2)radio access capabilities.

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3 4ei&itio&s, sy'ols, a&d a''reiatio&s

3.1 Sy'ols

7or the purposes of the present document- the followin symbols apply

fn !ystem frame number as defined in I3J

sn !lot number within a radio frame as defined in I3J

DLcellsN &umber of confiured cells

85/0N 8ownlin" bandwidth confiuration- e'pressed in units of

/0scN as defined in I3J

5/0N plin" bandwidth confiuration- e'pressed in units of

/0scN as defined in I3J

5symbN &umber of !1:78M symbols in an uplin" slot as defined in I3J

/0scN /esource bloc" sie in the freCuency domain- e'pressed as a number of subcarriers as defined in

I3J

sT 0asic time unit as defined in I3J

3.2 %''reiatio&s

7or the purposes of the present document- the followin abbreviations apply.

1$ c"nowledement01A 0roadcast 1hannel112 1ontrol 1hannel 2lement1%7 1arrier %ndicator 7ield

1D% 1hannel Duality %ndicator 1/1 1yclic /edundancy 1hec"1!% 1hannel !tate %nformation8% 8ownlin" ssinment %nde'81% 8ownlin" 1ontrol %nformation85 8ownlin"

85:!1A 8ownlin" !hared 1hannel8T= 8iscontinuous Transmission2P/2 2nery Per /esource 2lementM1! Modulation and 1odin !cheme&1$ &eative c"nowledementP01A Physical 0roadcast 1hannel

P17%1A Physical 1ontrol 7ormat %ndicator 1hannelP811A Physical 8ownlin" 1ontrol 1hannelP8!1A Physical 8ownlin" !hared 1hannelPA%1A Physical Aybrid /D %ndicator 1hannelPM1A Physical Multicast 1hannelPM% Precodin Matri' %ndicator

P/1A Physical /andom ccess 1hannelP/! Positionin /eference !ymbolP/0 Physical /esource 0loc" P11A Physical plin" 1ontrol 1hannelP!1A Physical plin" !hared 1hannelPT% Precodin Type %ndicator

Do! Duality of !ervice/0G /esource 0loc" Group

/2 /esource 2lement/% /an" %ndication/P7 /epetition 7actor /! /eference !inal

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!%/ !inal:to:%nterference /atio!%&/ !inal to %nterference plus &oise /atio!P! 1:/&T% !emi:Persistent !chedulin 1:/&T%!/ !chedulin /eCuest

!/! !oundin /eference !ymbolT Time alinment

TT% Transmission Time %nterval1% plin" 1ontrol %nformation2 ser 2Cuipment5 plin"

5:!1A plin" !hared 1hannelB/0 Birtual /esource 0loc"

+ Sy&!$ro&isatio& #ro!edures

+.1 ell sear!$

1ell search is the procedure by which a 2 acCuires time and freCuency synchroniation with a cell and detects thephysical layer 1ell %8 of that cell. 2:T/ cell search supports a scalable overall transmission bandwidthcorrespondin to > resource bloc"s and upwards.

The followin sinals are transmitted in the downlin" to facilitate cell search the primary and secondarysynchroniation sinals.

+.2 Tii& sy&!$ro&isatio&

+.2.1 Radio li&7 o&itori&

The downlin" radio lin" Cuality of the primary cell shall be monitored by the 2 for the purpose of indicatin out:of:sync;in:sync status to hiher layers.

%n non:8/= mode operation- the physical layer in the 2 shall every radio frame assess the radio lin" Cuality-evaluated over the previous time period defined in I,+J- aainst thresholds (Doutand Din) defined by relevant tests inI,+J.

%n 8/= mode operation- the physical layer in the 2 shall at least once every 8/= period assess the radio lin" Cuality-evaluated over the previous time period defined in I,+J- aainst thresholds (Doutand Din) defined by relevant tests in

I,+J.

%f hiher:layer sinallin indicates certain subframes for restricted radio lin" monitorin- the radio lin" Cuality shall notbe monitored in any subframe other than those indicated.

The physical layer in the 2 shall in radio frames where the radio lin" Cuality is assessed indicate out:of:sync to hiherlayers when the radio lin" Cuality is worse than the threshold Dout. Nhen the radio lin" Cuality is better than thethreshold Din- the physical layer in the 2 shall in radio frames where the radio lin" Cuality is assessed indicate in:syncto hiher layers.

+.2.2 8&ter-!ell sy&!$ro&isatio&

&o functionality is specified in this section in this release.

+.2.3 Tra&sissio& tii& ad9uste&ts

pon reception of a timin advance command- the 2 shall adjust its uplin" transmission timin for

P11A;P!1A;!/! of the primary cell. The timin advance command indicates the chane of the uplin" timinrelative to the current uplin" timin as multiples of ,> sT . The start timin of the random access preamble is specified

in I3J. The 5 transmission timin for P!1A;!/! of a secondary cell is the same as the primary cell.

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%n case of random access response- ,,:bit timin advance command I@J- TA- indicatesNTAvalues by inde' values of TA

+- ,- *- ...- ,*@*- where an amount of the time alinment is iven byNTATA,>.NTA is defined in I3J.

%n other cases- >:bit timin advance command I@J- TA- indicates adjustment of the currentNTAvalue-NTA,old- to the new

NTAvalue-NTA,new- by inde' values of TA +- ,- *-...- >3- whereNTA,newNTA,old (TA3,),>. Aere- adjustment ofNTAvalue by a positive or a neative amount indicates advancin or delayin the uplin" transmission timin by a iven

amount respectively.

7or a timin advance command received on subframe n- the correspondin adjustment of the timin shall apply fromthe beinnin of subframe n+6.Nhen the 2#s uplin" P11A;P!1A;!/! transmissions in subframe nand subframen, are overlapped due to the timin adjustment- the 2 shall transmit complete subframe nand not transmit theoverlapped part of subframe n,.

%f the received downlin" timin chanes and is not compensated or is only partly compensated by the uplin" timinadjustment without timin advance command as specified in I,+J- the 2 chanes &Taccordinly.

+.3 Tii& or Se!o&dary ell %!tiatio& / 4ea!tiatio&

Nhen a 2 receives an activation command I@J for a secondary cell in subframe n- the correspondin actions in I@Jshall be applied no later than the minimum reCuirement defined in I,+J and no earlier than subframe n@- e'cept for the

followin

: the actions related to 1!% reportin

: the actions related to thesCellDeactivationTimerassociated with the secondary cell I@J

which shall be applied in subframe n+8.

Nhen a 2 receives a deactivation command I@J for a secondary cell or thesCellDeactivationTimersecondary cell#sdeactivation timer associated with the secondary cell e'pires in subframe n- the correspondin actions in I@J shall applyno later than the minimum reCuirement defined in I,+J- e'cept for the actions related to 1!% reportin which shall be

applied in subframe n+8.

5 Poer !o&trol

8ownlin" power control determines the enery per resource element (2P/2). The term resource element enerydenotes the enery prior to 1P insertion. The term resource element enery also denotes the averae enery ta"en overall constellation points for the modulation scheme applied. plin" power control determines the averae power over a!1:78M symbol in which the physical channel is transmitted.

5.1 U#li&7 #oer !o&trol

plin" power control controls the transmit power of the different uplin" physical channels.

7or P!1A- the transmit power )(Q -P!1A i c defined in subclause


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5.1.1 P$ysi!al u#li&7 s$ared !$a&&el

5.1.1.1 U: 'e$aiour

The settin of the 2 Transmit power for a physical uplin" shared channel (P!1A) transmission is defined as follows.

%f the 2 transmits P!1A without a simultaneous P11A for the servin cell c - then the 2 transmit power)(-P!1A i c for P!1A transmission in subframe ifor the servin cell c is iven by

++++=

)()()()())((lo,+

)-(min)(

cT7-cORP3!1A-cP3!1A-,+

-1M.=cP3!1A-

ifiL!!i"

ii

ccc

c

Id0mJ

%f the 2 transmits P!1A simultaneous with P11A for the servin cell c - then the 2 transmit power)(-P!1A i c for the P!1A transmission in subframe ifor the servin cell c is iven by

( )

++++

=

)()()()())((lo,+

-)(Q)(Qlo,+min)(

cT7-cORP3!1A-cP3!1A-,+

P311A-1M.=,+cP3!1A-

ifiL!!i"

iii

ccc

c

Id0mJ

%f the 2 is not transmittin P!1A for the servin cell c- for the accumulation of TP1 command received with 81%

format 3;3 for P!1A- the 2 shall assume that the 2 transmit power )(-P!1A i c for the P!1A transmission

in subframe ifor the servin cell c is computed by

{ })(),(),()-(min)( ORP!1A-c1M=-cP!1A-c ifLii ccc ++= Id0mJ

where-

)(c1M=- i is the confiured 2 transmit power defined in I>J in subframe ifor servin cell c and

)(Q c1M=- i is the linear value of )(c1M=- i . %f the 2 transmits P11A without P!1A in subframe

i for the servin cell c- for the accumulation of TP1 command received with 81% format 3;3 for P!1A-

the 2 shall assume )(c1M=- i as iven by subclause J.

)(QP11A i is the linear value of )(P11A i defined in subclause


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%f the 2 has P!1A transmission with 1% on servin cell!and P!1A without 1% in any of the remainin servin

cells- and the total transmit power of the 2 would e'ceed )(Q iC"A7 - the 2 scales )(Q

-P!1A i c for the servin

cells without 1% in subframe isuch that the condition

( ))(Q)(Q)(Q)( -P!1A1M.=-P!1A iiiiw !!c

c

is satisfied where )(Q -P!1A i ! is the P!1A transmit power for the cell with 1% and )(iw is a scalin factor of

)(Q -P!1A i c for servin cell c without 1%. %n this case- no power scalin is applied to )(Q

-P!1A i ! unless

+)(Q)( -P!1A = !c

c iiw and the total transmit power of the 2 still would e'ceed )(Q iC"A7 . &ote that

)(iw values are the same across servin cells when +)( >iw but for certain servin cells )(iw may be ero.

%f the 2 has simultaneous P11A and P!1A transmission with 1% on servin cell j and P!1A transmission

without 1% in any of the remainin servin cells- and the total transmit power of the 2 would e'ceed )(Q iC"A7 -

the 2 obtains )(Q -P!1A i c accordin to

)(Q)(Q)-(Qmin)(Q P11A1M=-P!1A-P!1A iiii !! =

and

( ))(Q)(Q)(Q)(Q)( -P!1AP11A1M.=-P!1A iiiiiw !!c

c

5.1.1.2 Poer $eadroo

There are two types of 2 power headroom reports defined. 2 power headroom/ is valid for subframe ifor

servin cell c .

Type ,

%f the 2 transmits P!1A without P11A in subframe i for servin cell c - power headroom for a Type , report iscomputed usin

{ })()()()())((lo,+)()( cT7-cORP!1A-cP!1A-,+-1M=ctype,- ifiL!!i"ii/ cccc ++++= Id0J

where- ( )i c-1M= - )(cP!1A- i" - )(cORP!1A- ! - )(!c - cL - )(-T7 ic and )(ifc are defined insubclause


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( )

( ) ( ) ( )( )

+= +++++

++

,+)(--

,+)(),(),(

,+-1M.=type* 7RP311A+RP311A

cORP3!1A-

,+

,+

lo,+)()( i'11nnnhL

ifL

c T6D,R/AR4C4+c

ccc

ii/

Id0J

where- ),(cORP!1A- - ),(c and )(ifc are the primary cell parameters as defined in subclause


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( ) ( ){ }i'Lii c ++= +RP11A1M=-cP11A )-(min Id0mJ

where

)(c1M=- i is the confiured 2 transmit power defined in I>J in subframe i for servin cell c . %f the 2transmits P!1A without P11A in subframe i for the servin cell c- for the accumulation of TP1

command received with 81% format 3;3 for P11A- the 2 shall assume )(c1M=- i as iven by

subclause J.

The parameter 7RP11A ( )1 is provided by hiher layers. 2ach 7RP11A ( )1 value corresponds to aP11A

format (1) relative to P11A format ,a- where each P11A format (1) is defined in Table


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P11A is a 2 specific correction value- also referred to as a TP1 command- included in a P811A with

81% format ,;,0;,8;,;*;*;*0;*1 for the primary cell or sent jointly coded with other 2 specific P11Acorrection values on a P811A with 81% format 3;3 whose 1/1 parity bits are scrambled with TP1:

P11A:/&T%.

o The 2 attempts to decode a P811A of 81% format 3;3 with the 2#s TP1:P11A:/&T% and one

or several P811As of 81% format ,;,0;,8;,;*;*;*0;*1 with the 2#s 1:/&T% or !P! 1:/&T%on every subframe e'cept when in 8/=.

o %f the 2 decodes a P811A with 81% format ,;,0;,8;,;*;*;*0;*1 for the primary cell and the

correspondin detected /&T% eCuals the 1:/&T% or !P! 1:/&T% of the 2 and the TP1 field in the81% format is not used to determine the P11A resource as in subclause ,+.,- the 2 shall use the

P11A provided in that P811A.

else

if the 2 decodes a P811A with 81% format 3;3- the 2 shall use the P11A provided

in that P811A

else the 2 shall set P11A + d0.

o

,

+

( ) ( ,) ( )"

CC/ m

m

' i ' i i -

=

= + where )(i' is the current P11A power control adjustment

stateand where ( )+' is the first value after reset.

7or 788- ,=" and 9+=- .

7or T88- values of " and m- are iven in Table ,+.,.3.,:,.

The P11A d0 values sinalled on P811A with 81% format ,;,0;,8;,;*;*;*0;*1

are iven in Table .* and

o rampup is the total power ramp:up from the first to the last preambleprovided by hiher layers

%f 2 has reached )(c1M=- i for the primary cell- positive TP1 commands for the

primary cell shall not be accumulated

%f 2 has reached minimum power- neative TP1 commands shall not be accumulated

2 shall reset accumulation

when OR2RP11A value is chaned by hiher layers

when the 2 receives a random access response messae

( ) ( ,)' i ' i= if i is not an uplin" subframe in T88.

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Ta/le +'$'('$!$6 7appin1 of TP4 4o55and 8ield in 049 for5at $A$$0$(A((4(3 to P11A

values'

TP4 4o55and 8ield in

049 for5at$A$$0$(A((4(3

P11A :dDM or >9DM- this ratio is + d0.

7or transmission mode @- if 2:specific /!s are present in the P/0s upon which the correspondin P8!1A is mapped-the 2 may assume the ratio of P8!1A 2P/2 to 2:specific /! 2P/2 within each O78M symbol containin 2:specific /!s is + d0.

7or transmission mode F- if 2:specific /!s are present in the P/0s upon which the correspondin P8!1A is mapped-the 2 may assume the ratio of P8!1A 2P/2 to 2:specific /! 2P/2 within each O78M symbol containin 2:specific /! is + d0 for number of transmission layers less than or eCual to two and :3 d0 otherwise.

2 may assume that downlin" positionin reference sinal 2P/2 is constant across the positionin reference sinal

bandwidth and across all O78M symbols that contain positionin reference sinals in a iven positionin referencesinal occasion I,+J.

%f 1!%:/! is confiured in a servin cell then a 2 shall assume downlin" 1!%:/! 2P/2 is constant across thedownlin" system bandwidth and constant across all subframes.

The cell:specific ratio A) ; is iven by Table


21/127

Ta/le +'(!$6 The cell!specific ratio A) ; for $= (= or * cell specific antenna ports

)A) ;

>ne Antenna Port Two and 8our Antenna Ports

0 1 5/+

1 +/5 1

2 3/5 3/+3 2/5 1/2

7or PM1A with ,>DM or >9DM- the 2 may assume that the ratio of PM1A 2P/2 to M0!7& /! 2P/2 is eCualto + d0.

Ta/le +'(!(6 >807 s#5/ol indices within a slot of a non!7S8N su/fra5e where the ratio of the

correspondin1 P0S4? EPRE to the cell!specific RS EPRE is denoted /# A or )

Nu5/er of antennaports

>807 s#5/ol indices within a slot wherethe ratio of the correspondin1 P0S4?EPRE to the cell!specific RS EPRE is

denoted /# A


denoted /# )Nor5al c#clic prefi@ E@tended c#clic

prefi@Nor5al c#clic prefi@ E@tended c#clic

prefi@>ne or two 1, 2, 3, 5, 6 1, 2, +, 5 0, + 0, 3

8our 2, 3, 5, 6 2, +, 5 0, 1, + 0, 1, 3

Ta/le +'(!36 >807 s#5/ol indices within a slot of an 7S8N su/fra5e where the ratio of the

correspondin1 P0S4? EPRE to the cell!specific RS EPRE is denoted /# A or )

Nu5/er of antennaports


denoted /# A


denoted /# )

Nor5al c#clicprefi@

E@tended c#clicprefi@

Nor5al c#clicprefi@

E@tended c#clicprefi@

sn 5od

( %

sn 5od

( $

sn 5od

( %

sn 5od

( $

sn 5od

( %

sn 5od

( $

sn 5od

( %

sn 5od

( $

>ne or two 1, 2, 3,+, 5, 6

0, 1, 2,3, +, 5, 6

1, 2, 3,+, 5

0, 1, 2,3, +, 5

0 - 0 -

8our 2, 3, +,5, 6

0, 1, 2,3, +, 5, 6

2, +, 3, 5 0, 1, 2,3, +, 5

0, 1 - 0, 1 -

5.2.1 e;ode< Relatie ;arro'a&d T= Poer restri!tio&s

The determination of reported /elative &arrowband T= Power indication ( )R)nRNT is defined as follows

=

madeis)(

oflimitupperabout thepromisenoif,

)(if+

)(

)(

ma'R

)(

ma'R

p

nom

R)A

thresholdp

nom

R)A

R)

(

n(

RNT(

n(

nRNT

3GPP

3GPP TS 3&'($3 )$%'$$'% (%$3!$("($Release $%


22/127

where )( R)A n( is the ma'imum intended 2P/2 of 2:specific P8!1A /2s in O78M symbols not containin /!

in this physical resource bloc" on antenna portpin the considered future time interval9 R)n is the physical resource

bloc" number ,-...-+ = DLR)R) Nn H thresholdRNT ta"es on one of the followin values{ }3-*-,-+-,-*-3-9--?-@-F-,+-,,- +++thresholdRNT Id0J and

R)

,C

DL

R)

p

p

nomNN

f

(

=

,)(ma'

)(

ma'R

where)(

ma'

p is the base station ma'imum output power described in I?J- and f - DLR)N and

R)

,CN are defined in

I3J.

6 Ra&do a!!ess #ro!edure

Prior to initiation of the non:synchronied physical random access procedure- 5ayer , shall receive the followininformation from the hiher layers

,. /andom access channel parameters (P/1A confiuration and freCuency position)

*. Parameters for determinin the root seCuences and their cyclic shifts in the preamble seCuence set for the

primary cell (inde' to loical root seCuence table- cyclic shift ( 1!N )- and set type (unrestricted or restricted

set))

6.1 P$ysi!al &o&-sy&!$ro&i>ed ra&do a!!ess #ro!edure

7rom the physical layer perspective- the 5, random access procedure encompasses the transmission of random access

preamble and random access response. The remainin messaes are scheduled for transmission by the hiher layer onthe shared data channel and are not considered part of the 5, random access procedure. random access channeloccupies > resource bloc"s in a subframe or set of consecutive subframes reserved for random access preambletransmissions. The e&ode0 is not prohibited from schedulin data in the resource bloc"s reserved for random accesschannel preamble transmission.

The followin steps are reCuired for the 5, random access procedure

,. 5ayer , procedure is triered upon reCuest of a preamble transmission by hiher layers.

*. preamble inde'- a taret preamble received power (P/2M052R/212%B28RT/G2TRPON2/)- acorrespondin /:/&T% and a P/1A resource are indicated by hiher layers as part of the reCuest.

3. preamble transmission power PP/1Ais determined as

PP/1A minU )(c1M=- i - P/2M052R/212%B28RT/G2TRPON2/ cL VRId0mJ- where

)(c1M=- i is the confiured 2 transmit power defined in I>J for subframe iof the primary cell and cL

is the downlin" pathloss estimate calculated in the 2 for the primary cell.

9. preamble seCuence is selected from the preamble seCuence set usin the preamble inde'.

. 8etection of a P811A with the indicated /:/&T% is attempted durin a window controlled by hiher layers(see I@J- clause


23/127

6.1.1 Tii&

7or the 5, random access procedure- 2#s uplin" transmission timin after a random access preamble transmission isas follows.

a. %f a P811A with associated /:/&T% is detected in subframe n- and the correspondin 85:!1A

transport bloc" contains a response to the transmitted preamble seCuence- the 2 shall- accordin tothe information in the response- transmit an 5:!1A transport bloc" in the first subframe ,-n + -

>,- - if the 5 delay field in subclause >.* is set to erowhere ,-n + is the first available 5subframe for P!1A transmission. The 2 shall postpone the P!1A transmission to the ne't

available 5 subframe after ,-n + if the field is set to ,.

b. %f a random access response is received in subframe n- and the correspondin 85:!1A transportbloc" does not contain a response to the transmitted preamble seCuence- the 2 shall- if reCuested by

hiher layers- be ready to transmit a new preamble seCuence no later than in subframe - - where a P/1A resource is available.

6.2 Ra&do %!!ess Res#o&se Gra&t

The hiher layers indicate the *+:bit 5 Grant to the physical layer- as defined in I@J. This is referred to the /andomccess /esponse Grant in the physical layer. The content of these *+ bits startin with the M!0 and endin with the5!0 are as follows

: Aoppin fla E , bit

: 7i'ed sie resource bloc" assinment E ,+ bits

: Truncated modulation and codin scheme E 9 bits

: TP1 command for scheduled P!1A E 3 bits

: 5 delay E , bit

: 1!% reCuest E , bit

The 2 shall use the sinle:antenna port uplin" transmission scheme for the P!1A transmission correspondin to the/andom ccess /esponse Grant and the P!1A retransmission for the same transport bloc".

The 2 shall perform P!1A freCuency hoppin if the sinle bit freCuency hoppin (7A) field in a correspondin/andom ccess /esponse Grant is set as , and the uplin" resource bloc" assinment is type +- otherwise no P!1AfreCuency hoppin is performed. Nhen the hoppin fla is set- the 2 shall perform P!1A hoppin as indicated viathe fi'ed sie resource bloc" assinment detailed below.

The fi'ed sie resource bloc" assinment field is interpreted as follows

if 995/0 N

Truncate the fi'ed sie resource bloc" assinment to its *least sinificant bits- where

( )( ) *;,lo 5/05/0* += NN* - and interpret the truncated resource bloc" assinment accordin to the rules for areular 81% format +

else

3GPP

3GPP TS 3&'($3 )$%'$$'% (%$3!$("(3Release $%


24/127

%nsert *most sinificant bits with value set to W+# after theNL:hophoppin bits in the fi'ed sie resource bloc"assinment- where the number of hoppin bitsNL:hopis ero when the hoppin fla bit is not set to ,- and is defined

in Table @.9:, when the hoppin fla bit is set to ,- and ( )( )

+= ,+*;,lo 5/0

5/0* NN* - and interpret the

e'panded resource bloc" assinment accordin to the rules for a reular 81% format +

end if

The truncated modulation and codin scheme field is interpreted such that the modulation and codin schemecorrespondin to the /andom ccess /esponse rant is determined from M1! indices + throuh ,< in Table @.>.,:,.

The TP1 command *ms' shall be used for settin the power of the P!1A- and is interpreted accordin to Table >.*:

,.

Ta/le &'(!$6 TP4 4o55and *ms' for Scheduled PUS4?

TP4 4o55and )alue in d"

0 -6

1 -+

2 -23 0

+ 2

5 +

6 6

?

%n non:contention based random access procedure- the 1!% reCuest field is interpreted to determine whether an aperiodic

1D%- PM%- and /% report is included in the correspondin P!1A transmission accordin to subclause ?.*.,. %ncontention based random access procedure- the 1!% reCuest field is reserved.

The 5 delay applies for both T88 and 788 and this field can be set to + or , to indicate whether the delay of P!1Ais introduced as shown in subclause >.,.,.

P$ysi!al do&li&7 s$ared !$a&&el related #ro!edures

7or 788- there shall be a ma'imum of @ downlin" A/D processes per servin cell.

7or T88- the ma'imum number of downlin" A/D processes per servin cell shall be determined by the 5;85confiuration (Table 9.*:* of I3J)- as indicated in Table ?:,.

The dedicated broadcast A/D process defined in I@J is not counted as part of the ma'imum number of A/Dprocesses for both 788 and T88.

Ta/le ,!$6 7a@i5u5 nu5/er of 02 ?ARB processes for T00

T00 U202confi1uration

7a@i5u5 nu5/er of ?ARBprocesses

0 +

1

2 10

3

+ 12

5 15

6 6

3GPP

3GPP TS 3&'($3 )$%'$$'% (%$3!$("(*Release $%


25/127

.1 U: #ro!edure or re!eii& t$e #$ysi!al do&li&7 s$ared!$a&&el

2'cept the subframes indicated by the hiher layer parameter m*sfn2u*frameConfi'List- a 2 shall upon detection of aP811A of a servin cell with 81% format ,- ,- ,0- ,1- ,8- *- *- *0 or *1 intended for the 2 in a subframe-

decode the correspondin P8!1A in the same subframe with the restriction of the number of transport bloc"s definedin the hiher layers.

2 may assume that positionin reference sinals are not present in resource bloc"s in which it shall decode P8!1Aaccordin to a detected P811A with 1/1 scrambled by the !%:/&T% or P:/&T% with 81% format , or ,1 intendedfor the 2.

2 confiured with the carrier indicator field for a iven servin cell shall assume that the carrier indicator field isnot present in any P811A of the servin cell in the common search space that is described in subclause F.,. Otherwise-the confiured 2 shall assume that for the iven servin cell the carrier indicator field is present in P811A located inthe 2 specific search space described in subclause F., when the P811A 1/1 is scrambled by 1:/&T% or !P! 1:/&T%.

%f a 2 is confiured by hiher layers to decode P811A with 1/1 scrambled by the !%:/&T%- the 2 shall decode the

P811A and the correspondin P8!1A accordin to any of the combinations defined in Table ?.,:,. The scramblininitialiation of P8!1A correspondin to these P811As is by !%:/&T%.

Ta/le ,'$!$6 P044? and P0S4? confi1ured /# S9!RNT9

049 for5at Search Space Trans5ission sche5e of P0S4? correspondin1 to P044?

48 orat 1 oo& 8 t$e &u'er o P


26/127

The 2 is semi:statically confiured via hiher layer sinallin to receive P8!1A data transmissions sinalled viaP811A accordin to one of nine transmission modes- denoted mode , to mode F.

7or frame structure type ,-

: the 2 is not e'pected to receive P8!1A resource bloc"s transmitted on antenna port < in any subframe inwhich the number of O78M symbols for P811A with normal 1P is eCual to fourH

: the 2 is not e'pected to receive P8!1A resource bloc"s transmitted on antenna port H

: the 2 is not e'pected to receive P8!1A on antenna port ? for which distributed B/0 resource allocationis assined.

: The 2 may s"ip decodin the transport bloc"(s) if it does not receive all assined P8!1A resource bloc"s.%f the 2 s"ips decodin- the physical layer indicates to hiher layer that the transport bloc"(s) are notsuccessfully decoded.

%f a 2 is confiured by hiher layers to decode P811A with 1/1 scrambled by the 1:/&T%- the 2 shall decode theP811A and any correspondin P8!1A accordin to the respective combinations defined in Table ?.,:


27/127

: confiured by hiher layers to be part of a positionin reference sinal occasion and the positioninreference sinal occasion is only confiured within M0!7& subframes and the cyclic prefi' lenth used insubframe X+ is normal cyclic prefi'-

the 2 shall upon detection of a P811A with 1/1 scrambled by the 1:/&T% with 81% format , or *1 intended forthe 2- decode the correspondin P8!1A in the same subframe.

Ta/le ,'$!+6 P044? and P0S4? confi1ured /# 4!RNT9

Trans5ission5ode

049 for5at Search Space Trans5ission sche5e of P0S4?correspondin1 to P044?

Mode 1 48 orat 1% oo& a&dU: s#e!ii! 'y -R;T8

Si&le-a&te&&a #ort, #ort 0 (see su'!lause.1.1)

48 orat 1 U: s#e!ii! 'y -R;T8 Si&le-a&te&&a #ort, #ort 0 (see su'!lause.1.1)


Tra&sit diersity (see su'!lause .1.2)

48 orat 1 U: s#e!ii! 'y -R;T8 Tra&sit diersity (see su'!lause .1.2)



48 orat 2% U: s#e!ii! 'y -R;T8 are delay 44 (see su'!lause .1.3) orTra&sit diersity (see su'!lause .1.2)

Mode + 48 orat 1% oo& a&dU: s#e!ii! 'y -R;T8


48 orat 2 U: s#e!ii! 'y -R;T8 losed-loo# s#atial ulti#lei& ( seesu'!lause .1.+)or Tra&sit diersity (seesu'!lause .1.2)



48 orat 14 U: s#e!ii! 'y -R;T8 Multi-user M8MA (see su'!lause .1.5)



48 orat 1< U: s#e!ii! 'y -R;T8 losed-loo# s#atial ulti#lei& (seesu'!lause .1.+) usi& a si&letra&sissio& layer

Mode 48 orat 1% oo& a&dU: s#e!ii! 'y -R;T8

8 t$e &u'er o P


28/127

transmitted without a correspondin P811A. The scramblin initialiation of P8!1A correspondin to these P811Asand P8!1A without a correspondin P811A is by !P! 1:/&T%.

Nhen a 2 is confiured in transmission mode ?- scramblin initialiation of 2:specific reference sinals for P8!1Acorrespondin to these P811As and for P8!1A without a correspondin P811A is by !P! 1:/&T%.

Nhen a 2 is confiured in transmission mode F- in the subframes indicated by the hiher layer parameter m*sfn2u*frameConfi'Liste'cept in subframes for the servin cell

: indicated by hiher layers to decode PM1A or-

: confiured by hiher layers to be part of a positionin reference sinal occasion and the positioninreference sinal occasion is only confiured within M0!7& subframes and the cyclic prefi' lenth used insubframe X+ is normal cyclic prefi'-

the 2 shall upon detection of a P811A with 1/1 scrambled by the !P! 1:/&T% with 81% format , or *1 or for aconfiured P8!1A without P811A intended for the 2- decode the correspondin P8!1A in the same subframe.

Ta/le ,'$!&6 P044? and P0S4? confi1ured /# SPS 4!RNT9Trans5ission

5ode049 for5at Search Space Trans5ission sche5e of P0S4?

correspondin1 to P044?


Si&le-a&te&&a #ort, #ort 0 (seesu'!lause .1.1)

48 orat 1 U: s#e!ii! 'y -R;T8 Si&le-a&te&&a #ort, #ort 0 (seesu'!lause .1.1)






48 orat 2% U: s#e!ii! 'y -R;T8 Tra&sit diersity (see su'!lause .1.2)

Mode + 48 orat 1% oo& a&dU: s#e!ii! 'y -R;T8








Si&le-a&te&&a #ort, #ort 5 (seesu'!lause .1.1)

48 orat 1 U: s#e!ii! 'y -R;T8 Si&le-a&te&&a #ort, #ort 5 (seesu'!lause .1.1)

Mode ? 48 orat 1% oo& a&d

U: s#e!ii! 'y -R;T8

Si&le-a&te&&a #ort, #ort (see

su'!lause .1.1)48 orat 2< U: s#e!ii! 'y -R;T8 Si&le-a&te&&a #ort, #ort or ? (seesu'!lause .1.1)


Si&le-a&te&&a #ort, #ort (seesu'!lause .1.1)

48 orat 2 U: s#e!ii! 'y -R;T8 Si&le-a&te&&a #ort, #ort or ?, (seesu'!lause .1.1)

%f a 2 is confiured by hiher layers to decode P811A with 1/1 scrambled by the Temporary 1:/&T% and is notconfiured to decode P811A with 1/1 scrambled by the 1:/&T%- the 2 shall decode the P811A and thecorrespondin P8!1A accordin to the combination defined in Table ?.,:?. The scramblin initialiation of P8!1Acorrespondin to these P811As is by Temporary 1:/&T%.

3GPP

3GPP TS 3&'($3 )$%'$$'% (%$3!$("(-Release $%


29/127

Ta/le ,'$!,6 P044? and P0S4? confi1ured /# Te5porar# 4!RNT9

049 for5at Search Space Trans5ission sche5e of P0S4? correspondin1 to P044?

48 orat 1% oo& a&d U:s#e!ii! 'y Te#orary -R;T8

8 t$e &u'er o P.3.9.*.* of I3J.

.1.+ losed-loo# s#atial ulti#lei& s!$ee

7or the closed:loop spatial multiple'in transmission scheme of the P8!1A- the 2 may assume that an e&0transmission on the P8!1A would be performed accordin to the applicable number of transmission layers as definedin subclause >.3.9.*., of I3J.

.1.5 Multi-user M8MA s!$ee

7or the multi:user M%MO transmission scheme of the P8!1A- the 2 may assume that an e&0 transmission on the

P8!1A would be performed on one layer and accordin to subclause >.3.9.*., of I3J. The offset:power d0 value

sinalled on P811A with 81% format ,8 usin the downlin" power offset field is iven in Table ?.,.


30/127

.1.5< U# to ? layer tra&sissio& s!$ee

7or the up to @ layer transmission scheme of the P8!1A- the 2 may assume that an e&0 transmission on the P8!1Awould be performed with up to @ transmission layers on antenna ports ? : ,9 as defined in subclause >.3.9.9 of I3J.

.1.6 Resour!e allo!atio&The 2 shall interpret the resource allocation field dependin on the P811A 81% format detected. resourceallocation field in each P811A includes two parts- a resource allocation header field and information consistin of theactual resource bloc" assinment. P811A 81% formats ,- *- *- *0 and *1 with type + and P811A 81% formats ,- *-*-*0 and *1 with type , resource allocation have the same format and are distinuished from each other via the sinlebit resource allocation header field which e'ists dependin on the downlin" system bandwidth (subclause .,:,. The total number of /0Gs ( /0GN ) for downlin" system bandwidth of

85/0N is iven by NNR); ;85/0= where N ;85/0 of the /0Gs are of sie P and if +mod85/0 >N then one

of the /0Gs is of sie NN ;85/085/0 . The bitmap is of sie /0GN bits with one bitmap bit per /0G such that

each /0G is addressable. The /0Gs shall be inde'ed in the order of increasin freCuency and non:increasin /0Gsies startin at the lowest freCuency. The order of /0G to bitmap bit mappin is in such way that /0G + to /0G

,/0G N are mapped to M!0 to 5!0 of the bitmap. The /0G is allocated to the 2 if the correspondin bit value inthe bitmap is ,- the /0G is not allocated to the 2 otherwise.

Ta/le ,'$'&'$!$6 T#pe % Resource Allocation RG SiCe vs' 0ownlink S#ste5 andwidth

S#ste5 andwidth RG SiCe85/0N

P"

B10 111 " 26 2

2 " 63 3

6+ " 110 +

.1.6.2 Resour!e allo!atio& ty#e 1%n resource allocations of type ,- a resource bloc" assinment information of sie /0GN indicates to a scheduled 2

the B/0s from the set of B/0s from one of/0G subsets. The virtual resource bloc"s used are of localied type asdefined in subclause >.*.3., of I3J.lsois the /0G sie associated with the system bandwidth as shown in Table

?.,.>.,:,. /0G subset p - where p


31/127


32/127


33/127

C the hiher:layer parameterpdsch2tartfor the servin cell on which P8!1A is received if the 2 is confiuredwith carrier indicator field for the iven servin cell and if P8!1A and the correspondin P811A are receivedon different servin cells-

C the span of the 81% iven by the 17% of the servin cell accordin to subclause .

if the transport bloc" is transmitted in 8wPT! of the special subframe in frame structure type *- then

set the Table ?.,.?.*.,:, column indicator { }P/0ma' +.?< - ,R)N N = -

else- set the Table ?.,.?.*.,:, column indicator R)R) NN = .

The 2 may s"ip decodin a transport bloc" in an initial transmission if the effective channel code rate is hiher than+.F3+- where the effective channel code rate is defined as the number of downlin" information bits (includin 1/1 bits)

divided by the number of physical channel bits on P8!1A. %f the 2 s"ips decodin- the physical layer indicates tohiher layer that the transport bloc" is not successfully decoded. 7or the special subframe confiurations + and < withnormal downlin" 1P or confiurations + and 9 with e'tended downlin" 1P- shown in Table 9.*:, of I3J- there shall beno P8!1A transmission in 8wPT! of the special subframe.

3GPP

3GPP TS 3&'($3 )$%'$$'% (%$3!$("33Release $%


34/127

.1..1 Modulatio& order deteri&atio&

The 2 shall use m4 = * if the 81% 1/1 is scrambled by P:/&T%- /:/&T%- or !%:/&T%- otherwise- the 2 shall

use M1!+ and Table ?.,.?.,:, to determine the modulation order ( m4 ) used in the physical downlin" shared channel.

Ta/le ,'$','$!$6 7odulation and TS inde@ ta/le for P0S4?74S 9nde@

M1!+

7odulation >rder

m4

TS 9nde@

T0!+

0 2 0

1 2 1

2 2 2

3 2 3

+ 2 +

5 2 5

6 2 6

2

? 2 ?

2

10 + 11 + 10

12 + 11

13 + 12

1+ + 13

15 + 1+

16 + 151 6 15

1? 6 16

1 6 1

20 6 1?21 6 1

22 6 20

23 6 21

2+ 6 2225 6 23

26 6 2+

2 6 25

2? 6 262 2

resered30 +

31 6

.1..2 Tra&s#ort 'lo!7 si>e deteri&atio&

%f the 81% 1/1 is scrambled by P:/&T%- /:/&T%- or !%:/&T% then

C for 81% format ,

o the 2 shall set the T0! inde' ( T0!+ ) eCual to M1!+ and determine its T0! by the procedure in

subclause ?.,.?.*.,.

C for 81% format ,1

o the 2 shall set the T0! inde' ( T0!+ ) eCual to M1!+ and determine its T0! from Table ?.,.?.*.3:

,.

else

for *@+ M1! + - the 2 shall first determine the T0! inde' ( T0!+ ) usin M1!+ and Table ?.,.?.,:,e'cept if the transport bloc" is disabled in 81% formats *- *- *0 and *1 as specified below. 7or a transport

bloc" that is not mapped to more than sinle:layer spatial multiple'in- the T0! is determined by the procedure

3GPP

3GPP TS 3&'($3 )$%'$$'% (%$3!$("3*Release $%


35/127

in subclause ?.,.?.*.,. 7or a transport bloc" that is mapped to two:layer spatial multiple'in- the T0! isdetermined by the procedure in subclause ?.,.?.*.*. 7or a transport bloc" that is mapped to three:layer spatialmultiple'in- the T0! is determined by the procedure in subclause ?.,.?.*.9. 7or a transport bloc" that ismapped to four:layer spatial multiple'in- the T0! is determined by the procedure in subclause ?.,.?.*. 3* @@ ,*+ , *+@ **9 *

, *9 @@ ,99 ,?> *+@ **9 * 3*@ 399

* 3* ?* ,99 ,?> *+@ * *F> 3*@ 3?> 9*9

3 9+ ,+9 ,?> *+@ * 3*@ 3F* 99+

< ?* ,99 **9 3*@ 9*9 ++ >@+ ??> @?*

> 3*@ ,?> * 3F* ++ ?,* @+@ F3> ,+3*? ,+9 **9 3*@ 9?* @ ,+F> ,**9

@ ,*+ * 3F* >@+ @+@ F>@ ,+F> ,* ,3@9

F ,3> *F> 9 >,> ??> F3> ,+F> ,* ,9,> , 3?> ,+++ ,,F* ,3@9 ,>+@ ,@++ *+*9

,* *+@ 99+ >@+ F+9 ,,*@ ,3+@ ,@++ *+*9 **@+

,3 **9 9@@ ?99 ,+++ ,* ,++ *@

,< *@+ >++ F+9 ,**9 ,3* F>@ ,*@@ ,>+@ ,F*@ **@+ *>++ *F@9 3*9+

,? 33> >F> ,+>9 ,9,> ,@++ *,*9

,@ 3?> ??> ,,>+ ,*9 9++@,F 9+@ @9+ ,*@@ ,?3> *,++ *F@9 39F> 3@@+ 9*>9

*+ 99+ F+9 ,3@9 ,@>9 *399 *?F* 3*9+ 3? 9 9++@ 9@

** 9 ,>+@ *,>9 3*9+ 3?9 9??>


36/127


37/127

< *?*@ *?F* *@ *F@9 3,,* 3,,* 3*9+ 33>@ 39F> 39F>

> 3*9+ 33>@ 39F> 39F> 3>*9 3? 9,3>

? 3? 9*>9 93F* 9@

@ 93F* 9@ 9F>@ + + @?>+ F,99

,3 ?FF* @*9@ @+ F,99 F,99 F

,9 @?>+ F,99 F ,+>@+ ,,+>9 ,,+>9 ,,99@

,< F ,+*F> ,+>@+ ,,+>9 ,,99@ ,,@3* ,,@3* ,**,>

,> FF,* ,+*F> ,+>@+ ,,+>9 ,,99@ ,,@3* ,**,> ,**,> ,* ,*F>+

,? ,,+>9 ,,99@ ,,@3* ,**,> ,* ,*F>+ ,3 ,3 ,9,,* ,9>@@

,@ ,**,> ,* ,*F>+ ,3 ,9,,* ,9,,* ,9>@@ ,9 ,9 ,@@ ,9 ,9 ,9,> ,>FF* ,>FF*

*+ ,9>@@ ,9>@@ ,9 ,9,> ,>FF* ,>FF* ,?@ ,@33> ,@33>

*, , ,>FF* ,?@ ,@33> ,@33> ,F+@+ ,F@9@ ,F@9@

** ,>FF* ,>FF* ,?@ ,@33> ,F+@+ ,F+@+ ,F@9@ *+>,> *,3@9 *,3@9

*3 ,?@ ,@33> ,F+@+ ,F@9@ ,F@9@ *+>,> *,3@9 **, *,3@9 **,@@ *99F>

*< ,F@9@ *+>,> *+>,> *,3@9 **,@@ *99F> *99F> * **F*+ *3>@@ *99F> * *?3?> *@33> *F*F> *F*F>

T0!+ P/0N

*$ *( *3 ** *+ *& *, *- *. +%

+ ,,*@ ,,>+ ,,F* ,**9 ,* ,* ,*@@ ,3*+ ,3?* ,?3> ,?3> ,@++ ,@++

* ,@++ ,@>9 ,F*@ ,FF* *+*9 *+@@ *+@@ *, **,>

3 *9+@ *9?* * * *>++ *>>9 *?*@ *?F* *@ *@

9 *F@9 *F@9 3,,* 3,,* 3*9+ 3*9+ 33>@ 39F> 39F> 3>*9

< 3>*9 3?9 93F* 93F*

> 9*>9 93F* 9 9F>@ 9F>@ + +? 9F>@ + +

,, @*9@ @+ @?>+ F,99 F,99 F9 ,,+>9 ,,99@

,3 ,+>@+ ,+>@+ ,,+>9 ,,99@ ,,99@ ,,@3* ,**,> ,**,> ,* ,*F>+

,9 ,,@3* ,**,> ,**,> ,* ,*F>+ ,*F>+ ,3 ,3 ,9,,* ,9,,*

,< ,* ,*F>+ ,*F>+ ,3 ,3 ,9,,* ,9>@@ ,9>@@ ,9 ,9

,> ,3 ,3 ,9,,* ,9,,* ,9>@@ ,9>@@ ,9 ,

,? ,9>@@ ,9 ,9 ,9,> ,>9,> ,>FF* ,?@ ,?@ ,@33>

,@ ,>9,> ,>9,> ,>FF* ,?@ ,?@ ,@33> ,@33> ,F+@+ ,F+@+ ,F@9@

,F ,?@ ,@33> ,@33> ,F+@+ ,F+@+ ,F@9@ *+>,> *+>,> *,3@9 *,3@9

*+ ,F+@+ ,F@9@ ,F@9@ *+>,> *+>,> *,3@9 **, *,3@9 *,3@9 **,@@ *99F> *99F> * *99F> * *?3?>

*3 *3>@@ *99F> *99F> * *?3?> *?3?> *@33> *@33>

*9 * *>9,> *?3?> *@33> *@33> *F*F> *F*F> 3+

*< *>9,> *>9,> *?3?> *@33> *@33> *F*F> *F*F> 3+ 3,?+9 3,?+9

*> 3+ 3+ 3,?+9 3*@ 3*@ 39++@ 3+ 3+ 3>>F> 3>>F>

T0!+ P/0N

+$ +( +3 +* ++ +& +, +- +. &%

+ ,9,> ,9,> ,9@+ ,9@+ ,+@ ,>+@ ,>?*

, ,@>9 ,@>9 ,F*@ ,FF* ,FF* *+*9 *+@@ *+@@ *,>9 *>>93 *F@9 *F@9 3,,* 3,,* 3*9+ 3*9+ 33>@ 33>@ 39F> 39F>

9 3>*9 3? 9*>9 9*>9

3GPP

3GPP TS 3&'($3 )$%'$$'% (%$3!$("3,Release $%


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39/127

< >*++ >*++ >9 >9 >?,* >?,* >?,* >F>@ >F>@ >F>@

> ?9@+ ?9@+ ??3> ??3> ??3> ?FF* ?FF* @*9@ @*9@ @*9@

? @?>+ @?>+ @?>+ F,99 F,99 F,99 F@+ ,+>@+ ,+>@+ ,,+>9 ,,+>9 ,,+>9

F ,,+>9 ,,99@ ,,99@ ,,@3* ,,@3* ,,@3* ,**,> ,**,> ,* ,*

,+ ,* ,* ,*F>+ ,*F>+ ,*F>+ ,3 ,3 ,3 ,9,,* ,9,,*

,, ,9,,* ,9>@@ ,9>@@ ,9>@@ ,9 ,9 ,9,> ,>9,> ,>9,> ,>FF* ,>FF* ,?@ ,?@ ,?@ ,@33> ,@33>

,3 ,@33> ,@33> ,F+@+ ,F+@+ ,F+@+ ,F@9@ ,F@9@ ,F@9@ *+>,> *+>,>

,9 *+>,> *+>,> *+>,> *,3@9 *,3@9 **, **F*+ *3>@@ *3>@@ *99F> *99F> *99F> * *>9,> *>9,> *?3?> *?3?> *?3?> *@33> *@33> *F*F>

,@ *@33> *@33> *F*F> *F*F> *F*F> 3+ 3+ 3+ 3,?+9 3,?+9

,F 3+ 3+ 3,?+9 3,?+9 3*@ 3*@ 3*@ 39++@ 39++@ 39++@

*+ 3*@ 39++@ 39++@ 39++@ 3+ 3+ 3+ 3>>F> 3>>F> 3>>F>

*, 3+ 3>>F> 3>>F> 3>>F> 3?@@@ 3?@@@ 3F*3* 3F*3* 3F*3* 9+

** 3?@@@ 3F*3* 3F*3* 9+ 9+ 9+ 9*3>@ 9*3>@ 9*3>@ 93@,>

*3 9+ 9+ 9*3>@ 9*3>@ 93@,> 93@,> 93@,> 9


40/127

< ?FF* ?FF* @*9@ @*9@ @*9@ @+ @?>+

> F ,+*F>

? ,,+>9 ,,99@ ,,99@ ,,99@ ,,99@ ,,@3* ,,@3* ,,@3* ,**,> ,**,>

@ ,* ,*F>+ ,*F>+ ,*F>+ ,3 ,3 ,3 ,3 ,9,,* ,9,,*

F ,9,,* ,9>@@ ,9>@@ ,9>@@ ,9 ,9 ,9 ,9 ,9,> ,>9,> ,>FF* ,>FF* ,>FF* ,>FF* ,?@ ,?@

,, ,@33> ,@33> ,F+@+ ,F+@+ ,F+@+ ,F+@+ ,F@9@ ,F@9@ ,F@9@ ,F@9@,* *+>,> *,3@9 *,3@9 *,3@9 *,3@9 **,@@ *99F> *99F> *99F> * *>9,> *?3?> *?3?> *?3?> *@33> *@33> *@33> *@33>

,< *@33> *@33> *@33> *F*F> *F*F> *F*F> *F*F> 3+ 3+ 3+

,> *F*F> 3+ 3+ 3+ 3+ 3,?+9 3,?+9 3,?+9 3,?+9 3*@

,? 3*@ 3*@ 39++@ 39++@ 39++@ 3+ 3+ 3+ 3+ 3>>F>

,@ 3>>F> 3>>F> 3>>F> 3?@@@ 3?@@@ 3?@@@ 3?@@@ 3F*3* 3F*3* 3F*3*

,F 3F*3* 3F*3* 9+ 9+ 9+ 9+ 9*3>@ 9*3>@ 9*3>@ 93@,>

*+ 9*3>@ 9*3>@ 93@,> 93@,> 93@,> 9 9@F3> 9@F3> 9@F3> >3??>

*> >>@@+@ >@@+@ >@@+@ ?,,,* ?,,,* ?,,,* ?3?,* ?3?,* ?

T0!+ P/0N

$%$ $%( $%3 $%* $%+ $%& $%, $%- $%. $$%

+ *?F* *@ *@ *@ *F@9 *F@9 *F@9 *F@9 *F@9 3,,*

, 3?9

9 ?**9 ?**9 ?9@+ ?9@+ ?9@+ ?9@+ ??3> ??3> ??3> ?FF*

< @?>+ F,99 F,99 F,99 F,99 F@+ ,,+>9 ,,+>9 ,,+>9 ,,99@ ,,99@ ,,99@? ,**,> ,* ,* ,* ,*F>+ ,*F>+ ,*F>+ ,*F>+ ,3 ,3

@ ,9,,* ,9,,* ,9>@@ ,9>@@ ,9>@@ ,9>@@ ,9 ,9 ,9 ,9

F ,9,> ,>9,> ,>9,> ,>9,> ,>FF* ,>FF* ,>FF* ,>FF* ,?@

,+ ,?@ ,@33> ,@33> ,@33> ,@33> ,@33> ,F+@+ ,F+@+ ,F+@+ ,F+@+

,, *+>,> *+>,> *+>,> *,3@9 *,3@9 *,3@9 *,3@9 **,@@ *3>@@ *99F> *99F> *99F> *99F> *9,> *>9,> *>9,> *>9,> *?3?> *?3?> *?3?> *?3?> *@33> *@33>

,9 *F*F> *F*F> *F*F> *F*F> 3+ 3+ 3+ 3+ 3,?+9 3,?+9

,< 3+ 3,?+9 3,?+9 3,?+9 3,?+9 3*@ 3*@ 3*@ 39++@ 39++@

,> 3*@ 3*@ 39++@ 39++@ 39++@ 39++@ 3+ 3+ 3+ 3+

,? 3>>F> 3>>F> 3>>F> 3?@@@ 3?@@@ 3?@@@ 3F*3* 3F*3* 3F*3* 3F*3*

,@ 9+ 9+ 9+ 9+ 9*3>@ 9*3>@ 9*3>@ 9*3>@ 93@,> 93@,>

,F 93@,> 93@,> 93@,> 9@@@ 9@F3> 9@F3> 9@F3> 9@F3> 9@F3>

*9 >,>>9 >,>>9 >3??> >3??> >3??> >3??> >>>>>3??> >3??> >>>>>@@+@ >@@+@ >@@+@ ?,,,*

*> ? ? ? ? ? ? ? ? ? ?

.1..2.2 Tra&s#ort 'lo!7s a##ed to to-layer s#atial ulti#lei&

7or


41/127


42/127

Ta/le ,'$','('*!$6 >ne!la#er to three!la#er TS translation ta/le

TSF2$ TSF23 TSF2$ TSF23 TSF2$ TSF23 TSF2$ TSF23

1032 3112 266+ 2 ?2+? 2++6 26+16 ?0+

106+ 32+0 22? ?2+? ?50+ 25+56 236 ?116

106 32+0 22 ?2+? ?60 26+16 2?336 ?+60

112? 336? 2?56 ?50+ 1++ 236 226 ?361160 3+6 2?+ ?60 52? 2?336 3056 0?16

112 362+ 3112 1++ 12 226 310+ 3?00

122+ 362+ 32+0 52? 1026 3056 32?56 ?6

1256 352 336? 12 106?0 310+ 3+00? 101?+0

12?? 3??0 3+6 1026 1106+ 32?56 35160 10552?

1320 +00? 362+ 106?0 11++? 3+00? 3666 110136

1352 +00? 352 1106+ 11?32 35160 3??? 1150+0

13?+ +136 3??0 11++? 12216 3666 3232 11?16

1+16 +26+ +00? 11?32 1256 3??? +056 11?16

1+?0 +32 +136 1256 1260 3232 +236? 12?+6

15++ +5?+ +26+ 1260 13536 +056 +3?16 13320?

160? +6 +32 1260 1+112 +236? +5352 132

162 +6? +5?+ 13536 1+6?? +3?16 +6??? 1+22+?

136 5160 +6 1+112 1526+ +5352 +?36 1+6?56

1?00 5352 +6? 1+6?? 15?+0 +6??? 5102+ 1526

1?6+ 55++ 5160 1526+ 16+16 +?36 5252 15+32

12? 536 5352 15?+0 162 5102+ 55056 165216

12 52 55++ 16+16 156? 5252 5336 11???

202+ 52 536 162 1?336 55056 5256 1?16

20?? 6200 52 1?336 10?0 5336 6166+ 1?52?

2152 6+56 6200 1?336 1?+? 5256 636 1120

2216 612 6+56 10?0 20616 6166+ 6652 1?2+

22?0 612 612 1?+? 213?+ 636 6??0? 205??023++ 66? 66? 20616 22152 6652 1112 21+16

2+0? 22+ 22+ 213?+ 2220 6??0? 312 2216?0

2+2 +?0 +?0 22152 236?? 1112 536 226+16

2536 +?0 36 2220 2++6 312

2600 36 2 236?? 25+56 620?

.1..2.5 Tra&s#ort 'lo!7s a##ed to our-layer s#atial ulti#lei&

7or *?, P/0 N - the T0! is iven by the ( T0!+ - P/09 N ) entry of Table ?.,.?.*.,:,.

7or ,,+*@ P/0 N - a baseline T0!R5, is ta"en from the ( T0!+ - P/0N ) entry of Table ?.,.?.*.,:,- which isthen translated into T0!R59 usin the mappin rule shown in Table ?.,.?.*.


43/127

Ta/le ,'$','('+!$6 >ne!la#er to four!la#er TS translation ta/le

TSF2$ TSF2* TSF2$ TSF2* TSF2$ TSF2* TSF2$ TSF2*

6 3112 22?0 1++ 22+ 226 2++6 ?6

?0? 32+0 23++ 52? +?0 226 25+56 101?+0

?+0 336? 2+0? 52? 36 3056 26+16 10552?

?2 3+6 2+2 12 2 310+ 236 1101360+ 362+ 2536 1026 ?2+? 32?56 2?336 1150+0

36 352 2600 1026 ?50+ 3+00? 226 1150+0

6? 3??0 266+ 106?0 ?60 35160 3056 12++6+

1000 +00? 22? 1106+ 1++ 3666 310+ 12?+6

1032 +136 22 1106+ 52? 3??? 32?56 13320?

106+ +26+ 2?56 11++? 12 3232 3+00? 132

106 +32 2?+ 11?32 1026 +056 35160 1+22+?

112? +5?+ 3112 1256 106?0 +236? 3666 1+6?56

1160 +5?+ 32+0 1260 1106+ +3?16 3??? 15136

112 +6 336? 13536 11++? +5352 3232 15+32

122+ +6? 3+6 1+112 11?32 +6??? +056 16160

1256 +6? 362+ 1+6?? 12216 +?36 +236? 165++

12?? 5160 352 1526+ 1256 5102+ +3?16 15600

1320 5352 3??0 1526+ 1260 5102+ +5352 1?1656

1352 5352 +00? 15?+0 13536 55056 +6??? 1?12

13?+ 55++ +136 16+16 1+112 5336 +?36 15?16

1+16 536 +26+ 162 1+6?? 5256 5102+ 2030+

1+?0 52 +32 156? 1526+ 6166+ 5252 21136

15++ 6200 +5?+ 1?336 15?+0 636 55056 22026

160? 6+56 +6 10?0 16+16 6652 5336 23010+

162 612 +6? 1?+? 162 6??0? 5256 236160

136 66? 5160 20616 156? 1112 6166+ 2+56+?

1?00 22+ 5352 213?+ 1?336 312 636 25+32?1?6+ +?0 55++ 22152 10?0 620? 6652 266++0

12? 36 536 2220 1?+? ?0+ 6??0? 2536

12 2 52 236?? 20616 ?116 1112 2?+60?

202+ 2 6200 2++6 213?+ ?+60 312 2336

20?? ?2+? 6+56 25+56 22152 ?36 536 2?56

2152 ?50+ 612 26+16 2220 0?16

2216 ?60 66? 2?336 236?? 3?00

.1..3 Redu&da&!y Versio& deteri&atio& or orat 1

%f the 81% 7ormat ,1 1/1 is scrambled by P:/&T% or /:/&T%- then

C the 2 shall set the /edundancy Bersion to +

2lse if the 81% 7ormat ,1 1/1 is scrambled by !%:/&T%- then

C the 2 shall set the /edundancy Bersion as defined in I@J.

.1.? Stori& sot !$a&&el 'its

0oth for 788 and T88- if the 2 is confiured with more than one servin cell- then for each servin cell- for at least

( limit85RA/DM%MO

-min ""0 transport bloc"s- upon decodin failure of a code bloc" of a transport bloc"- the

2 shall store received soft channel bits correspondin to a rane of at least -w ,+-w -Z- )-,mod( c*,) Nn-w + -where

3GPP

3GPP TS 3&'($3 )$%'$$'% (%$3!$("*3Release $%


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45/127

Nhen reportin /% the 2 reports a sinle instance of the number of useful transmission layers. 7or each /% reportininterval when the 2 is confiured in transmission modes 9 or when the 2 is confiured in transmission mode @ or Fwith PM%;/% reportin- a 2 shall determine a /% from the supported set of /% values as defined in subclause ofI9J and report the number in each /% report. 7or each /% reportin interval when the 2 is confiured in transmission

mode 3- a 2 shall determine /% as defined in subclause of I9J in each reportin interval and report the detectednumber in each /% report to support selection between transmit diversity and lare delay 188.

Nhen reportin PM% the 2 reports either a sinle or a multiple PM% report. The number of /0s represented by a

sinle 2 PM% report can be 85/0N or a smaller subset of /0s. The number of /0s represented by a sinle PM% report

is semi:statically confiured by hiher layer sinallin. 2 is restricted to report PM%- /% and PT% within a precodercodeboo" subset specified by a bitmap parameter codebookSubsetRestrictionconfiured by hiher layersinallin. 7or a specific precoder codeboo" and associated transmission mode- the bitmap can specify all possible

precoder codeboo" subsets from which the 2 can assume the e&0 may be usin when the 2 is confiured in therelevant transmission mode. 1odeboo" subset restriction is supported for transmission modes 3- 9- and fortransmission modes @ and F with PM%;/% reportin. The resultin number of bits for each transmission mode is iven in

Table ?.*:,b. The bitmap forms the bit seCuence +,*3, ----...-c aaaaaA where +a is the 5!0 and ,cAa is the

M!0 and where a bit value of ero indicates that the PM% and /% reportin is not allowed to correspond to precoder(s)associated with the bit. The association of bits to precoders for the relevant transmission modes are iven as follows

,. Transmission mode 3

a. * antenna ports bit *-, = a is associated with the precoder in Table >.3.9.*.3:, of I3Jcorrespondin to layers and codeboo" inde' + while bit +a is associated with the precoder for *antenna ports in subclause >.3.9.3 of I3J.

b. 9 antenna ports bit 9-3-*-, = a is associated with the precoders in Table >.3.9.*.3:* of I3Jcorrespondin to layers and codeboo" indices ,*- ,3- ,9- and ,< while bit +a is associated withthe precoder for 9 antenna ports in subclause >.3.9.3 of I3J.

*. Transmission mode 9

a. * antenna ports see Table ?.*:,c

b. 9 antenna ports bitc),(,> i

a + is associated with the precoder for layers and with codeboo"

inde' ci in Table >.3.9.*.3:* of I3J.

3. Transmission modes < and >

a. * antenna ports bitci

a is associated with the precoder for ,= layer with codeboo" inde' ci inTable >.3.9.*.3:, of I3J.

b. 9 antenna ports bitci

a is associated with the precoder for ,= layer with codeboo" inde' ci in

Table >.3.9.*.3:* of I3J.

9. Transmission mode @

a. * antenna ports see Table ?.*:,c

b. 9 antenna ports bitc),(,> i

a + is associated with the precoder for layers and with codeboo"

inde' ci in Table >.3.9.*.3:* of I3J- *-,= .

ia + is associated with the precoder for layers and with codeboo"inde' ci in Table >.3.9.*.3:* of I3J.

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3GPP TS 3&'($3 )$%'$$'% (%$3!$("*+Release $%


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c. @ antenna ports bit,),(, if

a + is associated with the precoder for layers (V@-?->-


47/127

1odeword , offset level wideband 1D% inde' for codeword + E wideband 1D% inde' for

codeword ,.

o The mappin from the 3:bit wideband spatial differential 1D% value to the offset level is shown in

Table ?.*:*.

Ta/le ,'(!( 7appin1 spatial differential 4B9 value to offset level

Spatial differential 4B9value

>ffset level

0 0

1 1

2 2

3 3

+ -+

5 -3

6 -2

-1

.2.1 %#eriodi! S8 Re#orti& usi& PUS@

2 shall perform aperiodic 1!% reportin usin the P!1A in subframe n+-on servin cell c - upon decodin insubframe neither

an uplin" 81% format- or

a /andom ccess /esponse Grant-

for servin cell c if the respective 1!% reCuest field is set to trier a report and is not reserved. %f the 1!% reCuestfield is , bit I9J- a report is triered for servin cell c if the 1!% reCuest field is set to W,#. %f the 1!% reCuest field sie

is * bits I9J- a report is triered accordin to the value in Table ?.*.,:, correspondin to aperiodic 1!% reportin.

2 is not e'pected to receive more than one aperiodic 1!% report reCuest for a iven subframe.

Ta/le ,'('$!$A6 4S9 Reuest field for P044? with uplink 049 for5at in UE specific search space

)alue of 4S9 reuest field 0escription

#++# ;o a#eriodi! S8 re#ort is triered

W+,# %#eriodi! S8 re#ort is triered or seri& !ell c

W,+#%#eriodi! S8 re#ort is triered or a 1stset o

seri& !ells !o&iured 'y $i$er layers

W,,#%#eriodi! S8 re#ort is triered or a 2&dset o

seri& !ells !o&iured 'y $i$er layers

&ote P811A with 81% formats used to rant P!1A transmissions as iven by 81% format + and 81% format 9 areherein referred to as uplin" 81% format when common behaviour is addressed.

Nhen the 1!% reCuest field from an uplin" 81% format is set to trier a report- for 788 -#>- and for T88 5;85confiuration ,:>- -is iven in Table @:*. 7or T88 5;85 confiuration +- if the M!0 of the 5 inde' is set to , and5!0 of the 5 inde' is set to +- -is iven in Table @:*H or if M!0 of the 5 inde' is set to + and 5!0 of the 5 inde'is set to ,- -is eCual to ?H or if both M!0 and 5!0 of the 5 inde' is set to ,- -is iven in Table @:*.

Nhen the 1!% reCuest field from a /andom ccess /esponse Grant is set to trier a report and is not reserved- -iseCual to ,- if the 5 delay field in subclause >.* is set to erowhere ,- is iven in subclause >.,.,. The 2 shall

postpone aperiodic 1!% reportin to the ne't available 5 subframe if the 5 delay field is set to ,.

3GPP

3GPP TS 3&'($3 )$%'$$'% (%$3!$("*,Release $%


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The minimum reportin interval for aperiodic reportin of 1D% and PM% and /% is , subframe. The subband sie for1D% shall be the same for transmitter:receiver confiurations with and without precodin.

%f a 2 is not confiured for simultaneous P!1A and P11A transmission- when aperiodic 1!% report with notransport bloc" associated as defined in subclause @.>.* and positive !/ is transmitted in the same subframe- the 2shall transmit !/- and- if applicable- A/D:1$- on P11A resources as described in subclause ,+.,

2 is semi:statically confiured by hiher layers to feed bac" 1D% and PM% and correspondin /% on the sameP!1A usin one of the followin 1!% reportin modes iven in Table ?.*.,:, and described below.

Ta/le ,'('$!$6 4B9 and P79 8eed/ack T#pes for PUS4? 4S9 reportin1 7odes

P79 8eed/ack T#pe

No P79 Sin1le P79 7ultiple P79

PUS4?

4B9

8eed/ac

kT#pe

Dide/and Mode 1-2

wide/and 4B9"

UE Selected Mode 2-0 Mode 2-2su//and 4B9"

?i1her 2a#er!confi1ured Mode 3-0 Mode 3-1

su//and 4B9"

7or each of the transmission modes defined in subclause ?.,- the followin reportin modes are supported on P!1A

Transmission mode , Modes *:+- 3:+Transmission mode * Modes *:+- 3:+

Transmission mode 3 Modes *:+- 3:+Transmission mode 9 Modes ,:*- *:*- 3:,

Transmission mode < Mode 3:,Transmission mode > Modes ,:*- *:*- 3:,Transmission mode ? Modes *:+- 3:+Transmission mode @ Modes ,:*- *:*- 3:, if the 2 is confiured with PM%;/% reportinH modes *:+- 3:+ if the

2 is confiured without PM%;/% reportinTransmission mode F Modes ,:*- *:*- 3:, if the 2 is confiured with PM%;/% reportin and number of 1!%:/!

ports [ ,H modes *:+- 3:+ if the 2 is confiured without PM%;/% reportin or number of1!%:/! ports,

The aperiodic 1!% reportin mode is iven by the parameter c?i2Report"odeAperiodicwhich is confiured by hiher:

layer sinallin.

7or a servin cell with ?85

/0 N - P!1A reportin modes are not supported for that servin cell./% is only reported for transmission modes 3 and 9- as well as transmission modes @ and F with PM%;/% reportin.

/% report for a servin cell on an aperiodic reportin mode is valid only for 1D%;PM% report for that servin cell onthat aperiodic reportin mode

Nideband feedbac"

o Mode ,:* description

7or each subband a preferred precodin matri' is selected from the codeboo" subset

assumin transmission only in the subband

2 shall report one wideband 1D% value per codeword which is calculated assumin

the use of the correspondin selected precodin matri' in each subband andtransmission on set subbands.

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The 2 shall report the selected precodin matri' indicator for each set subband

e'cept for transmission mode F with @ 1!%:/! ports confiured in which case a first

precodin matri' indicator ,i is reported for the set subbands and a second precodin

matri' indicator *i is reported for each set subband.

!ubband sie is iven by Table ?.*.,:3.

7or transmission modes 9- @ and F- the reported PM% and 1D% values are calculatedconditioned on the reported /%. 7or other transmission modes they are reported

conditioned on ran" ,.

Aiher 5ayer:confiured subband feedbac"

o Mode 3:+ description

2 shall report a wideband 1D% value which is calculated assumin transmission on

set subbands

The 2 shall also report one subband 1D% value for each set subband. The subband

1D% value is calculated assumin transmission only in the subband

0oth the wideband and subband 1D% represent channel Cuality for the first codeword-

even when /%[,.

7or transmission mode 3 the reported 1D% values are calculated conditioned on the

reported /%. 7or other transmission modes they are reported conditioned on ran" ,.

o Mode 3:, description

sinle precodin matri' is selected from the codeboo" subset assumin transmission

on set ! subbands

2 shall report one subband 1D% value per codeword for each set subband which

are calculated assumin the use of the sinle precodin matri' in all subbands andassumin transmission in the correspondin subband.

2 shall report a wideband 1D% value per codeword which is calculated assumin the

use of the sinle precodin matri' in all subbands and transmission on set subbands

The 2 shall report the selected sinle precodin matri' indicator e'cept for

transmission mode F with @ 1!%:/! ports confiured in which case a first and secondprecodin matri' indicator are reported correspondin to the selected sinle precodinmatri'.

7or transmission modes 9- @ and F- the reported PM% and 1D% values are calculated

conditioned on the reported /%. 7or other transmission modes they are reported

conditioned on ran" ,.

o !ubband 1D% value for each codeword are encoded differentially with respect to their respective

wideband 1D% usin *:bits as defined by

!ubband differential 1D% offset level subband 1D% inde' E wideband 1D% inde'. The

mappin from the *:bit subband differential 1D% value to the offset level is shown in

Table ?.*.,:*.

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Ta/le ,'('$!(6 7appin1 su//and differential 4B9 value to offset level

Su//and differential4B9 value

>ffset level

0 0

1 1

2 23 -1

o !upported subband sie (-) is iven in Table ?.*.,:3.

Ta/le ,'('$!36 Su//and SiCe k" vs' S#ste5 andwidth

S#ste5 andwidth Su//and SiCe85/0N

k"

6 - ;%

? - 10 +11 - 26 +2 - 63 6

6+ - 110 ?

2:selected subband feedbac"

o Mode *:+ description

The 2 shall select a set of"preferred subbands of sie -(where - and"are iven in

Table ?.*.,:< for each system bandwidth rane) within the set of subbands .

The 2 shall also report one 1D% value reflectin transmission only over the"selected

subbands determined in the previous step. The 1D% represents channel Cuality for thefirst codeword- even when /%[,.

dditionally- the 2 shall also report one wideband 1D% value which is calculated

assumin transmission on set subbands. The wideband 1D% represents channel Cualityfor the first codeword- even when /%[,.

7or transmission mode 3 the reported 1D% values are calculated conditioned on the

reported /%. 7or other transmission modes they are reported conditioned on ran" ,.

o Mode *:* description

The 2 shall perform joint selection of the set of"preferred subbands of sie -within

the set of subbands and a preferred sinle precodin matri' selected from thecodeboo" subset that is preferred to be used for transmission over the"selectedsubbands.

The 2 shall report one 1D% value per codeword reflectin transmission only over the

selected"preferred subbands and usin the same selected sinle precodin matri' ineach of the"subbands.

2'cept for trans

3GPP TS 36213 Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer procedures

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Transcript of 3GPP TS 36213 Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer procedures