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Annex A (normative):Measurement channels

A.1 GeneralThe throughput values defined in the measurement channels specified in Annex A, are calculated and are valid perdatastream (codeword). For multi-stream (more than one codeword) transmissions, the throughput referenced in the

minimum requirements is the sum of throughputs of all datastreams (codewords).

The U categor! entr! in the definition of the reference measurement channel in Annex A is onl! informative and

reveals the U categories, which can support the corresponding measurement channel. "hether the measurementchannel is used for testing a certain U categor! or not is specified in the individual minimum requirements.

A.2 UL reference measurement channelsA.2.1 General

A.2.1.1 Applicability an common parameters

The following sections define the U# signal applica$le to the Transmitter %haracteristics (clause &) and for the 'eceiver

%haracteristics (clause ) where the U# signal is relevant.

The 'eference channels in this section assume transmission of U*%+ and emodulation 'eference signal onl!. The

following conditions appl!

- +A'/ transmission

- %!clic refix normal

- U*%+ hopping off

- #in0 adaptation off

- emodulation 'eference signal as per T* 1&.2 345 su$clause 6.6.2..2.

"here A%789A%7 is transmitted, it is assumed to $e multiplexed on U*%+ as per T* 1&.22 365 su$clause 6.2.2.&.

- A%789A%7 $it

- A%789A%7 mapping ad:acent to emodulation 'eference s!m$ol

- A%789A%7 resources punctured into data

- ;ax num$er of resources for A%789A%7 4 *%-F;A s!m$ols per su$frame

- 9o %/< transmitted, no '< transmitted

A.2.1.2 !etermination of payloa si"e

The algorithm for determining the pa!load si=eAis as follows> given a desired coding rateRand radio $loc0 allocationN'?

. %alculate the num$er of channel $itsNchthat can $e transmitted during the first transmission of a given su$-frame.

2. FindAsuch that the resulting coding rate is as close toRas possi$le, that is,

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chNAR 8)24(min + ,

su$:ect to

a) A is a valid T? si=e according to section .. of T* 1&.21 3&5 assuming an allocation ofN'?resource

$loc0s.

$) *egmentation is not included in this formula, $ut should $e considered in the T?* calculation.

c) For ';%-s, which at the nominal target coding rate do not cover all the possi$le U categories for thegiven modulation, reduce the target coding rate graduall! (within the same modulation), until the

maximal possi$le num$er of U categories is covered.

1.

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Table A.2.1.3-1: Overview o !" reere#$e %eas&re%e#' $a##els

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*&+le, Table a%e / o TR RROse'

!a'e4

o'es

5** 5&ll R allo$a'io# PS

&!! 'able A.2.2.1.11 1. *+,- 1# / 0 1

&!! 'able A.2.2.1.11 # *+,- 1# 1 0 1

&!! 'able A.2.2.1.11 *+,- 1# 2 0 1

&!! 'able A.2.2.1.11 1 *+,- 1# 0 1

&!! 'able A.2.2.1.11 1 *+,- 1 3 0 1

&!! 'able A.2.2.1.11 2 *+,- 1/ 1 0 1

5** 5&ll R allo$a'io# 16-A

&!! 'able A.2.2.1.21 1. 1/*AM # / 0 1

&!! 'able A.2.2.1.21 # 1/*AM 12 1 0 1

&!! 'able A.2.2.1.21 1/*AM 1# 2 0 1

&!! 'able A.2.2.1.21 1 1/*AM # 0 2

&!! 'able A.2.2.1.21 1 1/*AM 12 3 0 2

&!! 'able A.2.2.1.21 2 1/*AM 1# 1 0 25** Par'ial R allo$a'io# PS

&!! 'able A.2.2.2.11 1. 2 *+,- 1# 1 0 1

&!! 'able A.2.2.2.11 1. 2 *+,- 1# 2 0 1

&!! 'able A.2.2.2.11 1. 2 *+,- 1# # 0 1

&!! 'able A.2.2.2.11 1. 2 *+,- 1# 0 1

&!! 'able A.2.2.2.11 1. 2 *+,- 1# 0 1

&!! 'able A.2.2.2.11 # 2 *+,- 1# / 0 1

&!! 'able A.2.2.2.11 # 2 *+,- 1# 4 0 1

&!! 'able A.2.2.2.11 # 2 *+,- 1# 5 0 1

&!! 'able A.2.2.2.11 # 2 *+,- 1# 1 0 1

&!! 'able A.2.2.2.11 # 2 *+,- 1# 12 0 1

&!! 'able A.2.2.2.11 2 *+,- 1# 1 0 1

&!! 'able A.2.2.2.11 2 *+,- 1# 1/ 0 1

&!! 'able A.2.2.2.11 2 *+,- 1# 14 0 1

&!! 'able A.2.2.2.11 2 *+,- 1# 2 0 1

&!! 'able A.2.2.2.11 2 *+,- 1# 2 0 1

&!! 'able A.2.2.2.11 1 2 *+,- 1# 2 0 1

&!! 'able A.2.2.2.11 1 2 *+,- 1# 23 0 1

&!! 'able A.2.2.2.11 1 2 *+,- 1# # 0 1

&!! 'able A.2.2.2.11 1 2 *+,- 1# #2 0 1

&!! 'able A.2.2.2.11 1 2 *+,- 1# #/ 0 1&!! 'able A.2.2.2.11 1 2 *+,- 1# 0 1

&!! 'able A.2.2.2.11 1 2 *+,- 1# 0 1

&!! 'able A.2.2.2.11 1 2 *+,- 1# 4 0 1

&!! 'able A.2.2.2.11 1 2 *+,- 1# 0 1

&!! 'able A.2.2.2.11 1 2 *+,- 1# 0 1

&!! 'able A.2.2.2.11 1 2 *+,- 1 / 0 1

&!! 'able A.2.2.2.11 1 2 *+,- 1 / 0 1

&!! 'able A.2.2.2.11 1 2 *+,- 1 32 0 1

&!! 'able A.2.2.2.11 2 *+,- 1 3 0 1

&!! 'able A.2.2.2.11 2 *+,- 1 4 0 1

&!! 'able A.2.2.2.11 2 *+,- 1 41 0 1

&!! 'able A.2.2.2.11 2 *+,- 1/ 5 0 1

&!! 'able A.2.2.2.11 2 *+,- 1/ 5/ 0 1

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5** Par'ial R allo$a'io# 16-A

&!! 'able A.2.2.2.21 1. 2 1/*AM # 1 0 1

&!! 'able A.2.2.2.21 1. 2 1/*AM # 2 0 1

&!! 'able A.2.2.2.21 1. 2 1/*AM # # 0 1

&!! 'able A.2.2.2.21 1. 2 1/*AM # 0 1

&!! 'able A.2.2.2.21 1. 2 1/*AM # 0 1&!! 'able A.2.2.2.21 # 2 1/*AM # / 0 1

&!! 'able A.2.2.2.21 # 2 1/*AM # 4 0 1

&!! 'able A.2.2.2.21 # 2 1/*AM # 5 0 1

&!! 'able A.2.2.2.21 # 2 1/*AM # 1 0 1

&!! 'able A.2.2.2.21 # 2 1/*AM # 12 0 1

&!! 'able A.2.2.2.21 2 1/*AM 12 1 0 1

&!! 'able A.2.2.2.21 2 1/*AM 12 1/ 0 1

&!! 'able A.2.2.2.21 2 1/*AM 12 14 0 1

&!! 'able A.2.2.2.21 2 1/*AM 1# 2 0 1

&!! 'able A.2.2.2.21 2 1/*AM 1# 2 0 1

&!! 'able A.2.2.2.21 1 2 1/*AM 1# 2 0 1

&!! 'able A.2.2.2.21 1 2 1/*AM 1# 23 0 1

&!! 'able A.2.2.2.21 1 2 1/*AM # # 0 2

&!! 'able A.2.2.2.21 1 2 1/*AM # #2 0 2

&!! 'able A.2.2.2.21 1 2 1/*AM # #/ 0 2

&!! 'able A.2.2.2.21 1 2 1/*AM # 0 2

&!! 'able A.2.2.2.21 1 2 1/*AM # 0 2

&!! 'able A.2.2.2.21 1 2 1/*AM # 4 0 2

&!! 'able A.2.2.2.21 1 2 1/*AM # 0 2

&!! 'able A.2.2.2.21 1 2 1/*AM # 0 2

&!! 'able A.2.2.2.21 1 2 1/*AM 2# / 0 2

&!! 'able A.2.2.2.21 1 2 1/*AM 2# / 0 2

&!! 'able A.2.2.2.21 1 2 1/*AM 12 32 0 2

&!! 'able A.2.2.2.21 2 1/*AM 12 3 0 2

&!! 'able A.2.2.2.21 2 1/*AM 12 4 0 2

&!! 'able A.2.2.2.21 2 1/*AM 12 41 0 2

&!! 'able A.2.2.2.21 2 1/*AM 2 5 0 2

&!! 'able A.2.2.2.21 2 1/*AM 2 5/ 0 2

5** S&s'ai#e a'a ra'e

&!! 'able A.2.2.#1 6.11 &!! 1 *+,- .#1 0 1

&!! 'able A.2.2.#1 6.12 &!! 1 *+,- .#1 0 1

&!! 'able A.2.2.#1 6.1# &!! 2 *+,- .#1 5 0 2

&!! 'able A.2.2.#1 6.1#A &!! 1 *+,- .#1 0 1

&!! 'able A.2.2.#1 6.1 &!! 2 *+,- .#1 5 0 2

T** 5&ll R allo$a'io# PS

'!! 'able A.2.#.1.11 1. *+,- 1# / 0 1

'!! 'able A.2.#.1.11 # *+,- 1# 1 0 1

'!! 'able A.2.#.1.11 *+,- 1# 2 0 1

'!! 'able A.2.#.1.11 1 *+,- 1# 0 1

'!! 'able A.2.#.1.11 1 *+,- 1 3 0 1

'!! 'able A.2.#.1.11 2 *+,- 1/ 1 0 1

T** 5&ll R allo$a'io# 16-A

'!! 'able A.2.#.1.21 1. 1/*AM # / 0 1

'!! 'able A.2.#.1.21 # 1/*AM 12 1 0 1

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'!! 'able A.2.#.1.21 1/*AM 1# 2 0 1

'!! 'able A.2.#.1.21 1 1/*AM # 0 2

'!! 'able A.2.#.1.21 1 1/*AM 12 3 0 2

'!! 'able A.2.#.1.21 2 1/*AM 1# 1 0 2

T** Par'ial R allo$a'io# PS

'!! 'able A.2.#.2.11 1. 2 *+,- 1# 1 0 1'!! 'able A.2.#.2.11 1. 2 *+,- 1# 2 0 1

'!! 'able A.2.#.2.11 1. 2 *+,- 1# # 0 1

'!! 'able A.2.#.2.11 1. 2 *+,- 1# 0 1

'!! 'able A.2.#.2.11 1. 2 *+,- 1# 0 1

'!! 'able A.2.#.2.11 # 2 *+,- 1# / 0 1

'!! 'able A.2.#.2.11 # 2 *+,- 1# 4 0 1

'!! 'able A.2.#.2.11 # 2 *+,- 1# 5 0 1

'!! 'able A.2.#.2.11 # 2 *+,- 1# 1 0 1

'!! 'able A.2.#.2.11 # 2 *+,- 1# 12 0 1

'!! 'able A.2.#.2.11 2 *+,- 1# 1 0 1

'!! 'able A.2.#.2.11 2 *+,- 1# 1/ 0 1

'!! 'able A.2.#.2.11 2 *+,- 1# 14 0 1

'!! 'able A.2.#.2.11 2 *+,- 1# 2 0 1

'!! 'able A.2.#.2.11 2 *+,- 1# 2 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1# 2 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1# 23 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1# # 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1# #2 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1# #/ 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1# 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1# 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1# 4 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1# 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1# 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1 / 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1 / 0 1

'!! 'able A.2.#.2.11 1 2 *+,- 1 32 0 1

'!! 'able A.2.#.2.11 2 *+,- 1 3 0 1

'!! 'able A.2.#.2.11 2 *+,- 1 4 0 1

'!! 'able A.2.#.2.11 2 *+,- 1 41 0 1

'!! 'able A.2.#.2.11 2 *+,- 1/ 5 0 1

'!! 'able A.2.#.2.11 2 *+,- 1/ 5/ 0 1

T** Par'ial R allo$a'io# 16-A

'!! 'able A.2.#.2.21 1. 2 1/*AM # 1 0 1

'!! 'able A.2.#.2.21 1. 2 1/*AM # 2 0 1

'!! 'able A.2.#.2.21 1. 2 1/*AM # # 0 1

'!! 'able A.2.#.2.21 1. 2 1/*AM # 0 1

'!! 'able A.2.#.2.21 1. 2 1/*AM # 0 1

'!! 'able A.2.#.2.21 # 2 1/*AM # / 0 1

'!! 'able A.2.#.2.21 # 2 1/*AM # 4 0 1

'!! 'able A.2.#.2.21 # 2 1/*AM # 5 0 1

'!! 'able A.2.#.2.21 # 2 1/*AM # 1 0 1

'!! 'able A.2.#.2.21 # 2 1/*AM # 12 0 1

'!! 'able A.2.#.2.21 2 1/*AM 12 1 0 1

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'!! 'able A.2.#.2.21 2 1/*AM 12 1/ 0 1

'!! 'able A.2.#.2.21 2 1/*AM 12 14 0 1

'!! 'able A.2.#.2.21 2 1/*AM 1# 2 0 1

'!! 'able A.2.#.2.21 2 1/*AM 1# 2 0 1

'!! 'able A.2.#.2.21 1 2 1/*AM 1# 2 0 1

'!! 'able A.2.#.2.21 1 2 1/*AM 1# 23 0 1'!! 'able A.2.#.2.21 1 2 1/*AM # # 0 2

'!! 'able A.2.#.2.21 1 2 1/*AM # #2 0 2

'!! 'able A.2.#.2.21 1 2 1/*AM # #/ 0 2

'!! 'able A.2.#.2.21 1 2 1/*AM # 0 2

'!! 'able A.2.#.2.21 1 2 1/*AM # 0 2

'!! 'able A.2.#.2.21 1 2 1/*AM # 4 0 2

'!! 'able A.2.#.2.21 1 2 1/*AM # 0 2

'!! 'able A.2.#.2.21 1 2 1/*AM # 0 2

'!! 'able A.2.#.2.21 1 2 1/*AM 2# / 0 2

'!! 'able A.2.#.2.21 1 2 1/*AM 2# / 0 2

'!! 'able A.2.#.2.21 1 2 1/*AM 12 32 0 2

'!! 'able A.2.#.2.21 2 1/*AM 12 3 0 2

'!! 'able A.2.#.2.21 2 1/*AM 12 4 0 2

'!! 'able A.2.#.2.21 2 1/*AM 12 41 0 2

'!! 'able A.2.#.2.21 2 1/*AM 2 5 0 2

'!! 'able A.2.#.2.21 2 1/*AM 2 5/ 0 2

T** S&s'ai#e a'a ra'e

'!! 'able A.2.#.#1 6.11 '!! 1 *+,- .# 0 1

'!! 'able A.2.#.#1 6.12 '!! 1 *+,- ./1 0 2

'!! 'able A.2.#.#1 6.1# '!! 2 *+,- .5 5 0 2

'!! 'able A.2.#.#1 6.1#7 '!! 1 *+,- .2 / 0 2

'!! 'able A.2.#.#1 6.1 '!! 2 *+,- .5 5 0 2

A.2.2 6eference measurement channels for &!!

A.2.2.1 &ull 67 allocation

A.2.2.1.1 *+,-

Table A.2.2.1.1-1 Reere#$e a##els or PS wi' &ll R allo$a'io#

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / 1 2 3 1!&'$&!M ,ymbols per ,ub&rame 12 12 12 12 12 12Moulation *+,- *+,- *+,- *+,- *+,- *+,-'ar;et 8oin; rate 1# 1# 1# 1# 1 1/+ayloa si"e 7its / 1 221/ 1/ #52 4'ransport bloc 868 7its 2 2 2 2 2 2

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A.2.2.1.2 1/*AM

Table A.2.2.1.2-1 Reere#$e a##els or 16-A wi' &ll R allo$a'io#

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2

Allocate resource blocs / 1 2 3 1!&'$&!M ,ymbols per ,ub&rame 12 12 12 12 12 12Moulation 1/*AM 1/*AM 1/*AM 1/*AM 1/*AM 1/*AM'ar;et 8oin; rate # 12 1# # 12 1#+ayloa si"e 7its 2/ 2/ 5/4 21#4 21#4 1544'ransport bloc 868 7its 2 2 2 2 2 2

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A.2.2.2.1 *+,-

Table A.2.2.2.1-1 Reere#$e a##els or PS wi' +ar'ial R allo$a'io#

Para%e'er

/ Allo$a'e Rs

*5T-O5*

S%bols

+er S&b-5ra%e

o;# Tar4e'oi#4

ra'e

Paloasi

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A.2.2.2.2 1/*AM

Table A.2.2.2.2-1 Reere#$e a##els or 16-A wi' +ar'ial R allo$a'io#

Para%e'er

/ Allo$a'e Rs

*5T-O5*

S%bols

+er S&b-5ra%e

o;# Tar4e'oi#4

ra'e

Paloasi

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A.2.2.# 6eference measurement channels for sustaine o%nlin ata rateprovie by lo%er layers

Table A.2.2.3-1: !+li#= Reere#$e a##els or s&s'ai#e a'a-ra'e 'es' (5**)

Para%e'er !#i' Val&e

6eference 8hannel 6.11&!!

6.12&!!

6.1#&!!

6.1#A&!!

6.1&!!

&&,

8hannel 7an%ith M9" 1 1 2 1 2Allocate 6esource 7locs

(

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A.2.#.1.2 1/*AM

Table A.2.3.1.2-1 Reere#$e a##els or 16-A wi' &ll R allo$a'io#

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2

Allocate resource blocs / 1 2 3 1Uplin!o%nlin 8onfi;uration (

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A.2.#.2.1 *+,-

Table A.2.3.2.1-1 Reere#$e a##els or PS wi' +ar'ial R allo$a'io#

Para%e'er

/ Allo$a'e Rs

!*"o#i4&ra'io#

(o'e 2)

*5T-O5*

S%bol

s +erS&b-5ra%e

o;# Tar4e'oi#4

ra'e

Paloa si

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A.2.#.2.2 1/*AM

Table A.2.3.2.2-1 Reere#$e a##els or 16A wi' +ar'ial R allo$a'io#

Para%e'er

/ Allo$a'e Rs

!*"o#i4&ra'io#

(o'e 2)

*5T-O5*

S%bol

s +erS&b-5ra%e

o;# Tar4e'oi#4

ra'e

Paloa si

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A.2.#.# 6eference measurement channels for sustaine o%nlin ata rateprovie by lo%er layers

Table A.2.3.3-1: !+li#= Reere#$e a##els or s&s'ai#e a'a-ra'e 'es' (T**)

Para%e'er !#i' Val&e

6eference 8hannel 6.11

'!!

6.12

'!!

6.1#

'!!

6.1#7

'!!

6.1

'!!8hannel 7an%ith M9" 1 1 2 1 2Uplin!o%nlin 8onfi;uration (

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a) A is a valid T? si=e according to section .. of T* 1&.21 3&5 assuming an allocation ofN'?resource$loc0s.

$) *egmentation is not included in this formula, $ut should $e considered in the T?* calculation.

1.

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Table A.3.1.1-1: Overview o *" reere#$e %eas&re%e#' $a##els

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*&+le, Table a%e / o TR RROse'

!a'e4

o'es

5** Re$eiver re@&ire%e#'s

&!! 'able A.#.21 1. *+,- 1# / 0 1

&!! 'able A.#.21 # *+,- 1# 1 0 1

&!! 'able A.#.21 *+,- 1# 2 0 1

&!! 'able A.#.21 1 *+,- 1# 0 1

&!! 'able A.#.21 1 *+,- 1# 3 0 1

&!! 'able A.#.21 2 *+,- 1# 1 0 1

T** Re$eiver re@&ire%e#'s

'!! 'able A.#.22 1. *+,- 1# / 0 1

'!! 'able A.#.22 # *+,- 1# 1 0 1

'!! 'able A.#.22 *+,- 1# 2 0 1

'!! 'able A.#.22 1 *+,- 1# 0 1

'!! 'able A.#.22 1 *+,- 1# 3 0 1

'!! 'able A.#.22 2 *+,- 1# 1 0 15** Re$eiver re@&ire%e#'s a,i%&% i#+&' level or ! a'e4ories 3-?

&!! 'able A.#.2# 1. /*AM # /

&!! 'able A.#.2# # /*AM # 1

&!! 'able A.#.2# /*AM # 2

&!! 'able A.#.2# 1 /*AM #

&!! 'able A.#.2# 1 /*AM # 3

&!! 'able A.#.2# 2 /*AM # 1

5** Re$eiver re@&ire%e#'s a,i%&% i#+&' level or ! a'e4ories 1

&!! 'able A.#.2#a 1. /*AM # /

&!! 'able A.#.2#a # /*AM # 1

&!! 'able A.#.2#a /*AM # 14

&!! 'able A.#.2#a 1 /*AM # 13

&!! 'able A.#.2#a 1 /*AM # 13

&!! 'able A.#.2#a 2 /*AM # 13

5** Re$eiver re@&ire%e#'s a,i%&% i#+&' level or ! a'e4ories 2

&!! 'able A.#.2#b 1. /*AM # /

&!! 'able A.#.2#b # /*AM # 1

&!! 'able A.#.2#b /*AM # 2

&!! 'able A.#.2#b 1 /*AM #

&!! 'able A.#.2#b 1 /*AM # 3

&!! 'able A.#.2#b 2 /*AM # 4# T** Re$eiver re@&ire%e#'s a,i%&% i#+&' level or ! a'e4ories 3-?

'!! 'able A.#.2 1. /*AM # /

'!! 'able A.#.2 # /*AM # 1

'!! 'able A.#.2 /*AM # 2

'!! 'able A.#.2 1 /*AM #

'!! 'able A.#.2 1 /*AM # 3

'!! 'able A.#.2 2 /*AM # 1

T** Re$eiver re@&ire%e#'s a,i%&% i#+&' level or ! a'e4ories 1

'!! 'able A.#.2a 1. /*AM # /

'!! 'able A.#.2a # /*AM # 1

'!! 'able A.#.2a /*AM # 14

'!! 'able A.#.2a 1 /*AM # 13

'!! 'able A.#.2a 1 /*AM # 13

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'!! 'able A.#.2a 2 /*AM # 13

T** Re$eiver re@&ire%e#'s a,i%&% i#+&' level or ! a'e4ories 2

'!! 'able A.#.2b 1. /*AM # /

'!! 'able A.#.2b # /*AM # 1

'!! 'able A.#.2b /*AM # 2

'!! 'able A.#.2b 1 /*AM # '!! 'able A.#.2b 1 /*AM # 3

'!! 'able A.#.2b 2 /*AM # 4#

5** P*S> Peror%a#$e Si#4le-a#'e##a 'ra#s%issio# (RS)

&!! 'able A.#.#.11 6. &!! 1. *+,- 1# / 0 1

&!! 'able A.#.#.11 6.2 &!! 2 *+,- 1# 1 0 1

&!! 'able A.#.#.11 6.2 &!! 1 *+,- 1# 0 1

&!! 'able A.#.#.12 6.#1 &!! 1/*AM 12 2 0 1

&!! 'able A.#.#.12 6.# &!! 1 1/*AM 12 0 2

&!! 'able A.#.#.1# 6. &!! # /*AM # 1 0 1

&!! 'able A.#.#.1# 6./ &!! /*AM # 2 0 2

&!! 'able A.#.#.1# 6.3 &!! 1 /*AM # 0 2

&!! 'able A.#.#.1# 6.4 &!! 1 /*AM # 3 0 2

&!! 'able A.#.#.1# 6.5 &!! 2 /*AM # 1 0 #

&!! 'able A.#.#.1#a 6./1 &!! /*AM # 14 0 1

&!! 'able A.#.#.1#a 6.31 &!! 1 /*AM # 13 0 1

&!! 'able A.#.#.1#a 6.41 &!! 1 /*AM # 13 0 1

&!! 'able A.#.#.1#a 6.51 &!! 2 /*AM # 13 0 1

&!! 'able A.#.#.1#a 6.52 &!! 2 /*AM # 4# 0 2

&!! 'able A.#.#.1/ 6.1 &!! 1 *+,- 11 0 1

5** P*S> Peror%a#$e Si#4le-a#'e##a 'ra#s%issio# (RS) Si#4le PR (a##el e4e)

&!! 'able A.#.#.1 6. &!! # 1/*AM 12 1 0 1

&!! 'able A.#.#.1 6.1 &!!1 2

1/*AM 12 1 0 1

5** P*S> Peror%a#$e Si#4le-a#'e##a 'ra#s%issio# (RS) Si#4le PR (S5 o#i4&ra'io#)

&!! 'able A.#.#.1 6.25 &!! 1 1/*AM 12 1 0 1

5** P*S> Peror%a#$e &l'i-a#'e##a 'ra#s%issio# (RS) Two a#'e##a +or's

&!! 'able A.#.#.2.11 6.1 &!! 1 *+,- 1# 0 1

&!! 'able A.#.#.2.11 6.11 &!! 1 1/*AM 12 0 2

&!! 'able A.#.#.2.11 6.112 &!! 1/*AM 12 2 0 1

&!! 'able A.#.#.2.11 6.11# &!! 1 1/*AM 12 0 1

&!! 'able A.#.#.2.11 6.11 &!! 1 *+,- 12 0 1

&!! 'able A.#.#.2.11 6.# &!! 2 1/*AM 12 1 0 2&!! 'able A.#.#.2.11 6.#1 &!! 1 1/*AM 12 3 0 2

&!! 'able A.#.#.2.11 6.# &!! 1 /*AM 12 0 2

&!! 'able A.#.#.2.11 6.#1 &!! 2 /*AM .#5 1

&!! 'able A.#.#.2.11 6.#2 &!! 1 /*AM .#5 3 0 2

&!! 'able A.#.#.2.11 6.## &!! 1 /*AM .#5 0 2

&!! 'able A.#.#.2.12 6.# &!! 1 /*AM .3 0 2

&!! 'able A.#.#.2.12 6./ &!! 1 *+,- 0 1

&!! 'able A.#.#.2.12 6.3 &!! 1 1/*AM 0 1

5** P*S> Peror%a#$e &l'i-a#'e##a 'ra#s%issio# (RS) 5o&r a#'e##a +or's

&!! 'able A.#.#.2.21 6.12 &!! 1. *+,- 1# / 0 1

&!! 'able A.#.#.2.21 6.1# &!! 1 *+,- 1# 0 1

&!! 'able A.#.#.2.21 6.1 &!! 1 1/*AM 12 0 2

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&!! 'able A.#.#.2.21 6.11 &!! 1 1/*AM 12 / 0 1

&!! 'able A.#.#.2.21 6.12 &!! 1 1/*AM 12 # 0 1

&!! 'able A.#.#.2.21 6.1# &!! 2 1/*AM 12 1 0 2

&!! 'able A.#.#.2.21 6.#/ &!! 1 /*AM 12 0 2

5** P*S> Peror%a#$e (! s+e$ii$ RS) Two a#'e##a +or's (S-RS)

&!! 'able A.#.#.#.11 6.1 &!! 1 1/*AM 12 0 25** P*S> Peror%a#$e (! s+e$ii$ RS) 5o&r a#'e##a +or's (S-RS)

&!! 'able A.#.#.#.21 6.# &!! 1 *+,- 1# 0 1

&!! 'able A.#.#.#.21 6. &!! 1 /*AM 12 0 2

&!! 'able A.#.#.#.22 6. &!! 1 *+,- 1# 0 1

&!! 'able A.#.#.#.22 6. &!! 1 1/*AM 12 0 2

&!! 'able A.#.#.#.22 6.1 &!! 1 1/*AM 12 #5 0 1

&!! 'able A.#.#.#.21 6.4 &!! 1 *+,- 0 1

5** P*S> Peror%a#$e: arrier a44re4a'io# wi' +ower i%bala#$e

&!! 'able A.#.#.13 6.5 &!! 2 /*AM 4

T** P*S> Peror%a#$e Si#4le-a#'e##a 'ra#s%issio# (RS)

'!! 'able A.#..11 6. '!! 1. *+,- 1# / 0 1

'!! 'able A.#..11 6.2 '!! 2 *+,- 1# 1 0 1

'!! 'able A.#..11 6.2 '!! 1 *+,- 1# 0 1

'!! 'able A.#..12 6.#1 '!! 1/*AM 12 2 0 1

'!! 'able A.#..12 6.# '!! 1 1/*AM 12 0 2

'!! 'able A.#..1# 6. '!! # /*AM # 1 0 1

'!! 'able A.#..1# 6./ '!! /*AM # 2 0 2

'!! 'able A.#..1# 6.3 '!! 1 /*AM # 0 2

'!! 'able A.#..1# 6.4 '!! 1 /*AM # 3 0 2

'!! 'able A.#..1# 6.5 '!! 2 /*AM # 1 0 #

'!! 'able A.#..1#a 6./1 '!! /*AM # 14 0 1

'!! 'able A.#..1#a 6.31 '!! 1 /*AM # 13 0 1

'!! 'able A.#..1#a 6.41 '!! 1 /*AM # 13 0 1

'!! 'able A.#..1#a 6.51 '!! 2 /*AM # 13 0 1

'!! 'able A.#..1#a 6.52 '!! 2 /*AM # 4# 0 2

'!! 'able A.#..1/ 6.1 '!! 1 *+,- 11 0 1

T** P*S> Peror%a#$e Si#4le-a#'e##a 'ra#s%issio# (RS) Si#4le PR (a##el e4e)

'!! 'able A.#..1 6. '!! # 1/*AM 12 1 0 1

'!! 'able A.#..1 6.1 '!!1 2

1/*AM 12 1 0 1

T** P*S> Peror%a#$e Si#4le-a#'e##a 'ra#s%issio# (RS) Si#4le PR (S5 o#i4&ra'io#)

'!! 'able A.#..1 6.25 '!! 1 1/*AM 12 1 0 1T** P*S> Peror%a#$e &l'i-a#'e##a 'ra#s%issio# (RS) Two a#'e##a +or's

'!! 'able A.#..2.11 6.1 '!! 1 *+,- 1# 0 1

'!! 'able A.#..2.11 6.11 '!! 1 1/*AM 12 0 2

'!! 'able A.#..2.11 6.111 '!! 1 1/*AM 12 0 2

'!! 'able A.#..2.11 6.112 '!! 1/*AM 12 2 0 1

'!! 'able A.#..2.11 6.11# '!! 1 1/*AM 12 0 1

'!! 'able A.#..2.11 6.11 '!! 1 *+,- 12 0 1

'!! 'able A.#..2.11 6.# '!! 2 1/*AM 12 1 0 2

'!! 'able A.#..2.11 6.#1 '!! 2 1/*AM 12 1 0 2

'!! 'able A.#..2.11 6.#2 '!! 2 1/*AM 12 1 #

'!! 'able A.#..2.11 6.# '!! 1 /*AM 12 0 2

'!! 'able A.#..2.11 6.#1 '!! 2 /*AM .#5 1

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'!! 'able A.#..2.12 6.#2 '!! 1 /*AM .3 0 2

'!! 'able A.#..2.12 6./ '!! 1 *+,- 0 1

'!! 'able A.#..2.12 6.3 '!! 1 1/*AM 0 1

T** P*S> Peror%a#$e &l'i-a#'e##a 'ra#s%issio# (RS) 5o&r a#'e##a +or's

'!! 'able A.#..2.21 6.12 '!! 1. *+,- 1# / 0 1

'!! 'able A.#..2.21 6.1# '!! 1 *+,- 1# 0 1'!! 'able A.#..2.21 6.1 '!! 1 1/*AM 12 0 2

'!! 'able A.#..2.21 6.11 '!! 1 1/*AM 12 / 0 1

'!! 'able A.#..2.21 6.12 '!! 1 1/*AM 12 # 0 1

'!! 'able A.#..2.21 6.# '!! 2 1/*AM 12 1 02

'!! 'able A.#..2.21 6.#/ '!! 1 /*AM 12 0 2

T** P*S> Peror%a#$e Si#4le a#'e##a +or' (*RS)

'!! 'able A.#..#.11 6.2 '!! 1 *+,- 1# 0 1

'!! 'able A.#..#.11 6.2/ '!! 1 1/*AM 12 0 2

'!! 'able A.#..#.11 6.2/1 '!! 1/*AM 12 2 0 1

'!! 'able A.#..#.11 6.23 '!! 1 /*AM # 0 2

'!! 'able A.#..#.11 6.231 '!! 1 /*AM # 14 0 1

'!! 'able A.#..#.11 6.24 '!! 1 1/*AM 12 1 0 1

T** P*S> Peror%a#$e Two a#'e##a +or's (*RS)

'!! 'able A.#..#.21 6.#1 '!! 1 *+,- 1# 0 1

'!! 'able A.#..#.21 6.#2 '!! 1 1/*AM 12 0 2

'!! 'able A.#..#.21 6.#21 '!! 1/*AM 12 B2C 0 1

'!! 'able A.#..#.21 6.## '!! 1 /*AM # 0 2

'!! 'able A.#..#.21 6.##1 '!! 1 /*AM # B14C 0 1

'!! 'able A.#..#.21 6.# '!! 1 /*AM 12 0 2

T** P*S> Peror%a#$e (! s+e$ii$ RS) Two a#'e##a +or's (S-RS)

'!! 'able A.#..#.#1 6.1 '!! 1 1/*AM 12 0 2

T** P*S> Peror%a#$e (! s+e$ii$ RS) 5o&r a#'e##a +or's (S-RS)

'!! 'able A.#..#.1 6. '!! 1 /*AM 12 0 2

'!! 'able A.#..#.1 6.4 '!! 1 *+,- 0 1

T** P*S> Peror%a#$e (! s+e$ii$ RS) i4' a#'e##a +or's (S-RS)

'!! 'able A.#..#.1 6. '!! 1 *+,- 1# 0 1

'!! 'able A.#..#.2 6. '!! 1 1/*AM 12 0 2

'!! 'able A.#..#.2 6.1 '!! 1 1/*AM 12 #5 0 1

T** P*S> Peror%a#$e: arrier a44re4a'io# wi' +ower i%bala#$e

'!! 'able A.#.#.13 6.5 '!! 2 /*AM 4

5** P*> B P5> Peror%a#$e&!! 'able A.#..11 6.1 &!! 1 +!889

&!! 'able A.#..11 6.11 &!! 1 +!889

&!! 'able A.#..11 6.12 &!! 1 +!889

&!! 'able A.#..11 6.1/ &!! 1 +!889

&!! 'able A.#..11 6.13 &!! +!889

T** P*> B P5> Peror%a#$e

'!! 'able A.#..21 6.1 '!! 1 +!889

'!! 'able A.#..21 6.11 '!! 1 +!889

'!! 'able A.#..21 6.12 '!! 1 +!889

'!! 'able A.#..21 6.1/ '!! 1 +!889

'!! 'able A.#..21 6.13 '!! +!889

5** B T** P>> Peror%a#$e

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&!! '!!

'able A.#./1 6.14 1 +9>89

&!! '!!

'able A.#./1 6.15 1 +9>89

&!! '!!

'able A.#./1 6.2 +9>89

&!! '!!

'able A.#./1 6.2 1 +9>89

5** B T** P> Peror%a#$e

&!! '!!

'able A.#.31 6.21 1. *+,-

152

&!! '!!

'able A.#.31 6.22 1. *+,-

152

&!! '!!

'able A.#.31 6.2# 1. *+,-

152

5** P> Peror%a#$e

&!! 'able A.#.4.11 6. &!! 1. *+,- 1# / 0 1

&!! 'able A.#.4.11 6.#3 &!! 1 *+,- 1# 0 1

&!! 'able A.#.4.12 6.#4 &!! 1 1/*AM 12 0 1

&!! 'able A.#.4.1# 6.#51 &!! /*AM 2# 2 0 1

&!! 'able A.#.4.1# 6.#5 &!! 1 /*AM 2# 0 2T** P> Peror%a#$e

'!! 'able A.#.4.21 6. '!! 1. *+,- 1# / 0 1

'!! 'able A.#.4.21 6.#3 '!! 1 *+,- 1# 0 1

'!! 'able A.#.4.22 6.#4 '!! 1 1/*AM 12 0 1

'!! 'able A.#.4.2# 6.#51 '!! /*AM 2# 2 0 1

'!! 'able A.#.4.2# 6.#5 '!! 1 /*AM 2# 0 2

5** S&s'ai#e a'a ra'e (RS)

&!! 'able A.#.5.11 6.#11 &!! 1 /*AM . 0 1

&!! 'able A.#.5.11 6.#12 &!! 1 /*AM.5./

0 2

&!! 'able A.#.5.11 6.#1# &!! 2 /*AM.5./2 0 2

&!! 'able A.#.5.11 6.#1#A &!! 1 /*AM.4.5

0 2

&!! 'able A.#.5.11 6.#1 &!! 2 /*AM.43.5

0 #

&!! 'able A.#.5.11 6.#1 &!! 1 /*AM.4.51

0 #

T** S&s'ai#e a'a ra'e (RS)

'!! 'able A.#.5.21 6.#11 '!! 1 /*AM . 0 1

'!! 'able A.#.5.21 6.#12 '!! 1 /*AM.5./

0 2

'!! 'able A.#.5.21 6.#1# '!! 2 /*AM.5./2

0 2

'!! 'able A.#.5.21 6.#1#A '!! 1 /*AM.43

.5

0 2

'!! 'able A.#.5.21 6.#1 '!! 2 /*AM.43.5

0 #

5** S&s'ai#e a'a ra'e 'es' wi' P*> s$e&li#4 (RS)

&!! 'able A.#.5.#1 6.#1=1 &!! 1 /*AM.@.4

0 1

&!! 'able A.#.5.#1 6.#1=2 &!! 1 /*AM.5.//

0 2

&!! 'able A.#.5.#1 6.#1=# &!! 2 /*AM.5./#

0 2

&!! 'able A.#.5.#16.#1=#A&!!

1 /*AM.4.52

0 2

&!! 'able A.#.5.#1 6.#1= &!! 2 /*AM.43.51

0 #

T** S&s'ai#e a'a ra'e 'es' wi' P*> s$e&li#4 (RS)

'!! 'able A.#.5.1 6.#1=1 '!! 1 /*AM .@.4

0 1

'!! 'able A.#.5.1 6.#1=2 '!! 1 /*AM.5./

0 2

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'!! 'able A.#.5.1 6.#1=# '!! 2 /*AM.5./#

0 2

'!! 'able A.#.5.16.#1=#A'!!

1 /*AM.43.52

0 2

'!! 'able A.#.5.1 6.#1= '!! 2 /*AM.43.5

0 #

A.#.2 6eference measurement channel for receiver characteristicsTa$les A.1.2- and A.1.2-2 are applica$le for measurements on the 'eceiver %haracteristics (clause ) with the

exception of su$clause .4 (;aximum input level).

Ta$les A.1.2-1, A.1.2-1a, A.1.2-1$, A.1.2-4, A.1.2-4a and A.1.2-4$ are applica$le for su$clause .4 (;aximum inputlevel).

Ta$les A.1.2- and A.1.2-2 also appl! for the modulated interferer used in %lauses .6, .& and . with test specific$andwidths.

Table A.3.2-1 5i,e Reere#$e a##el or Re$eiver Re@&ire%e#'s (5**)

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / 1 2 3 1,ubcarriers per resource bloc 12 12 12 12 12 12Allocate subframes per 6aio &rame 5 5 5 5 5 5Moulation *+,- *+,- *+,- *+,- *+,- *+,-'ar;et 8oin; 6ate 1# 1# 1# 1# 1# 1#nformation 7it +ayloa per ,ub&rame &or ,ub&rames 1?2?#??/?3?4?5 7its 4 1#2 221/ #52 /312 43/ &or ,ub&rame 7its

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Table A.3.2-2 5i,e Reere#$e a##el or Re$eiver Re@&ire%e#'s (T**)

Para%e'er !#i' Val&e

8hannel 7an%ith M9" 1. # 1 1 2Allocate resource blocs / 1 2 3 1Uplin!o%nlin 8onfi;uration (

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Table A.3.2-3 5i,e Reere#$e a##el or a,i%&% i#+&' level or ! a'e4ories 3-8 (5**)

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / 1 2 3 1,ubcarriers per resource bloc 12 12 12 12 12 12Allocate subframes per 6aio &rame 4 5 5 5 5 5

Moulation /*AM /*AM /*AM /*AM /*AM /*AM'ar;et 8oin; 6ate # # # # # #nformation 7it +ayloa per ,ub&rame &or ,ub&rames 1?2?#??/?3?4?5 7its 254 4 1112 #3/ /444 /1// &or ,ub&rame 7its

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Table A.3.2-3b 5i,e Reere#$e a##el or a,i%&% i#+&' level or ! a'e4or 2 (5**)

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / 1 2 3 4#,ubcarriers per resource bloc 12 12 12 12 12 12Allocate subframes per 6aio &rame 4 5 5 5 5 5

Moulation /*AM /*AM /*AM /*AM /*AM /*AM'ar;et 8oin; 6ate # # # # # #nformation 7it +ayloa &or ,ub&rames 1?2?#??/?3?4?5 7its 254 4 1112 #3/ /444 12 &or ,ub&rame 7its

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Table A.3.2-9 5i,e Reere#$e a##el or a,i%&% i#+&' level or ! a'e4ories 3-8 (T**)

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / 1 2 3 1,ubcarriers per resource bloc 12 12 12 12 12 12Uplin!o%nlin 8onfi;uration (

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Table A.3.2-9a 5i,e Reere#$e a##el or a,i%&% i#+&' level or ! a'e4or 1 (T**)

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / 1 14 13 13 13,ubcarriers per resource bloc 12 12 12 12 12 12Uplin!o%nlin 8onfi;uration (

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Table A.3.2-9b 5i,e Reere#$e a##el or a,i%&% i#+&' level or ! a'e4or 2 (T**)

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / 1 2 3 4#,ubcarriers per resource bloc 12 12 12 12 12 12Uplin!o%nlin 8onfi;uration (

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A.#.# 6eference measurement channels for +!,89 performancere@uirements (&!!)

A.#.#.1 ,in;leantenna transmission (8ommon 6eference ,ymbols)

Table A.3.3.1-1: 5i,e Reere#$e a##el PS RC1B3

Para%e'er !#i' Val&e

6eference channel 6.&!!

6.2&!!

6.2&!!

8hannel ban%ith M9" 1. 2 1Allocate resource blocs (

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Table A.3.3.1-2: 5i,e Reere#$e a##el 16A RC1B2

Para%e'er !#i' Val&e

6eference channel 6.#1&!!

6.#&!!

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs 2

Allocate subframes per 6aio &rame 5 5Moulation 1/*AM 1/*AM'ar;et 8oin; 6ate 12 12>nformation 7it +ayloa &or ,ub&rames 1?2?#??/?3?4?5 7its // 1112 &or ,ub&rame 7its

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Table A.3.3.1-3a: 5i,e Reere#$e a##el 69A RC3B9

Para%e'er !#i' Val&e

6eference channel 6./1&!!

6.31&!!

6.41&!!

6.51&!!

6.52&!!

8hannel ban%ith M9" 1 1 2 2Allocate resource blocs (

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Table A.3.3.1-?: 5i,e Reere#$e a##el Si#4le PR (S5 o#i4&ra'io#)

Para%e'er !#i' Val&e

6eference channel 6.25 &!!(M7,&

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Table A.3.3.1-6: 5i,e Reere#$e a##el PS RC1B10

Para%e'er !#i' Val&e

6eference channel 6.1&!!

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs

Allocate subframes per 6aio &rame 5Moulation *+,-'ar;et 8oin; 6ate 11>nformation 7it +ayloa &or ,ub&rames 1?2?#??/?3?4?5 7its 1#4 &or ,ub&rame 7its

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A.#.#.2 Multiantenna transmission (8ommon 6eference ,ymbols)

A.#.#.2.1 '%o antenna ports

Table A.3.3.2.1-1: 5i,e Reere#$e a##el 'wo a#'e##a +or's

Para%e'er !#i' Val&e

6eferencechannel

6.1&!!

6.11&!!

6.111&!!

6.112

&!!

6.11#

&!!

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Table A.3.3.2.1-2: 5i,e Reere#$e a##el 'wo a#'e##a +or's

Para%e'er !#i' Val&e

6eference channel 6./&!!

6.3&!!

6.#&!!

8hannel ban%ith M9" 1 1 1Allocate resource blocs (

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A.#.#.2.2 &our antenna ports

Table A.3.3.2.2-1: 5i,e Reere#$e a##el o&r a#'e##a +or's

Para%e'er !#i' Val&e

6eference channel 6.12

&!!

6.1#

&!!

6.1

&!!

6.11

&!!

6.12

&!!

6.1#

&!!

6.#/

&!!8hannel ban%ith M9" 1. 1 1 1 1 2 1Allocate resource blocs (

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Table A.3.3.3.1-1: 5i,e Reere#$e a##el or *-%&l'i+le,e * RS wi' 'wo S-RS a#'e##a+or's

Para%e'er !#i' Val&e

6eference channel 6.1 &!!8hannel ban%ith M9" 1Allocate resource blocs (

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Table A.3.3.3.1-2: 5i,e Reere#$e a##el or *-%&l'i+le,e * RS wi' 'wo S-RS a#'e##a+or's wi' DP S-RS a# DP S-RS

Para%e'er !#i' Val&e

6eference channel 6.2 &!! 6.# &!! 6. &!!8hannel ban%ith M9" 1 1 1Allocate resource blocs (

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Table A.3.3.3.2-1: 5i,e Reere#$e a##el or *-%&l'i+le,e * RS wi' o&r S-RS a#'e##a+or's

Para%e'er !#i' Val&e

6eference channel 6.# &!! 6. &!! 6.4 &!!8hannel ban%ith M9" 1 1 1Allocate resource blocs (

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Table A.3.3.3.2-2: 5i,e Reere#$e a##el or o&r a#'e##a +or's (S-RS)

Para%e'er !#i' Val&e

6eference channel 6.&!!

6.&!!

6.1&!!

8hannel ban%ith M9" 1 1 1Allocate resource blocs # # #5

Allocate subframes per 6aio &rame 1 1 1Moulation *+,- 1/*AM 1/*AM'ar;et 8oin; 6ate 1# 12 12>nformation 7it +ayloa &or ,ub&rames (6, subframe) 7its #/2 114 43/ &or ,ub&rames (8,>6, subframe) 7its #/2 114 43/&or ,ub&rames (Jero+o%er8,>6,subframe)

7its

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A.#. 6eference measurement channels for +!,89 performancere@uirements ('!!)

A.#..1 ,in;leantenna transmission (8ommon 6eference ,ymbols)

Table A.3.9.1-1: 5i,e Reere#$e a##el PS RC1B3

Para%e'er !#i' Val&e

6eference channel 6.'!!

6.2'!!

6.2'!!

8hannel ban%ith M9" 1. 2 1Allocate resource blocs (

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Table A.3.9.1-2: 5i,e Reere#$e a##el 16A RC1B2

Para%e'er !#i' Val&e

6eference channel 6.#1'!!

6.#'!!

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs 2

Uplin!o%nlin 8onfi;uration (

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Table A.3.9.1-3: 5i,e Reere#$e a##el 69A RC3B9

Para%e'er !#i' Val&e

6eference channel 6.'!!

6./ '!! 6.3'!!

6.4'!!

6.5'!!

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs 1 2 3 1

Uplin!o%nlin 8onfi;uration (

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Table A.3.9.1-3a: 5i,e Reere#$e a##el 69A RC3B9

Para%e'er !#i' Val&e

6eference channel 6./1'!!

6.31'!!

6.41'!!

6.51'!!

6.52'!!

8hannel ban%ith M9" 1 1 2 2Allocate resource blocs (

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Table A.3.9.1-9: 5i,e Reere#$e a##el Si#4le PR

Para%e'er !#i' Val&e

6eference channel 6.'!!

6.1 '!!

8hannel ban%ith M9" 1. # 12 1 2Allocate resource blocs 1 1

Uplin!o%nlin 8onfi;uration (

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Table A.3.9.1-?: 5i,e Reere#$e a##el Si#4le PR (S5 o#i4&ra'io#)

Para%e'er !#i' Val&e

6eference channel 6.25 '!! (M7,&

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Table A.3.9.1-6: 5i,e Reere#$e a##el PS RC1B10

Para%e'er !#i' Val&e

6eference channel 6.1'!!

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs

Uplin!o%nlin 8onfi;uration (

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Table A.3.9.1-7: Pell 5i,e Reere#$e a##el or A e%o&la'io# wi' +ower i%bala#$e

Para%e'er !#i' Val&e

6eference channel 6.5 '!!8hannel ban%ith M9" 2Uplin!o%nlin 8onfi;uration (

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A.#..2 Multiantenna transmission (8ommon 6eference ,i;nals)

A.#..2.1 '%o antenna ports

Table A.3.9.2.1-1: 5i,e Reere#$e a##el 'wo a#'e##a +or's

Para%e'er !#i' Val&e

6eference channel 6.1'!!

6.11'!!

6.111'!!

6.112'!!

6.11#'!!nformation 7it+ayloa (

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Table A.3.9.2.1-2: 5i,e Reere#$e a##el 'wo a#'e##a +or's

Para%e'er !#i' Val&e

6eference channel 6./ '!! 6.3 '!! 6.#2'!!

8hannel ban%ith M9" 1 1 1Allocate resource

blocs (

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A.#..2.2 &our antenna ports

Table A.3.9.2.2-1: 5i,e Reere#$e a##el o&r a#'e##a +or's

Para%e'er !#i' Val&e

6eference channel 6.12

'!!

6.1#

'!!

6.1

'!!

6.11

'!!

6.12

'!!

6.#

'!!

6.#/

'!!8hannel ban%ith M9" 1. 1 1 1 1 2 1Allocate resource blocs (

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Table A.3.9.3.1-1: 5i,e Reere#$e a##el or *RS

Para%e'er !#i' Val&e

6eference channel 6.2'!!

6.2/'!!

6.2/1'!!

6.23'!!

6.231'!!

6.24'!!

8hannel ban%ith M9" 1 1 1 1 1

Allocate resource blocs

2

14/

1Uplin!o%nlin 8onfi;uration (

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Table A.3.9.3.2-1: 5i,e Reere#$e a##el or *-%&l'i+le,e * RS

Reere#$e $a##el R.31T**

R.32T**

R.32-1T**

R.33T**

R.33-1T**

R.39T**

8hannel ban%ith M9" 1 1 1 1 1Allocate resourceblocs

2 14 /

Uplin!o%nlin8onfi;uration (

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Table A.3.9.3.3-1: 5i,e Reere#$e a##el or *-%&l'i+le,e * RS wi' 'wo S-RS a#'e##a+or's

Para%e'er !#i' Val&e

6eference channel 6.1 '!!8hannel ban%ith M9" 1Allocate resource blocs (

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Table A.3.9.3.3-2: 5i,e Reere#$e a##el or *-%&l'i+le,e * RS wi' 'wo S-RS a#'e##a+or's wi' DP S-RS a# DP S-RS

Para%e'er !#i' Val&e

6eference channel 6.2 '!! 6.# '!! 6. '!!8hannel ban%ith M9" 1 1 1Allocate resource blocs (

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Table A.3.9.3.9-1: 5i,e Reere#$e a##el or *-%&l'i+le,e * RS wi' o&r S-RS a#'e##a+or's

Para%e'er !#i' Val&e

6eference channel 6. '!! 6.4'!!

8hannel ban%ith M9" 1 1

Allocate resource blocs (

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Table A.3.9.3.?-1: 5i,e Reere#$e a##el or *-%&l'i+le,e * RS wi' ei4' S-RS a#'e##a+or's

Para%e'er !#i' Val&e

6eference channel 6. '!!8hannel ban%ith M9" 1Allocate resource blocs (

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Table A.3.9.3.?-2: 5i,e Reere#$e a##el or ei4' a#'e##a +or's (S-RS)

Para%e'er !#i' Val&e

6eference channel 6.'!!

6.1'!!

8hannel ban%ith M9" 1 1Allocate resource blocs #5

Uplin!o%nlin 8onfi;uration (

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A.#. 6eference measurement channels for +!889+8&>89performance re@uirements

A.#..1 &!!

Table A.3.?.1-1: Reere#$e a##el 5**

Para%e'er !#i' Val&e

6eference channel 6.1 &!! 6.11 &!! 6.12 &!! 6.1/ &!! 6.13 &!!! +ayloa (%ithout 868) 7its # # # /

A.#./ 6eference measurement channels for +9>89 performancere@uirements

Table A.3.6-1: Reere#$e a##el 5**BT**

Para%e'er !#i' Val&e

6eference channel 6.14 6.15 6.2 6.2

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A.#.3 6eference measurement channels for +789 performancere@uirements

Table A.3.7-1: Reere#$e a##el 5**BT**

Para%e'er !#i' Val&e

6eference channel 6.21 6.22 6.2#

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Table A.3.8.1-2: 5i,e Reere#$e a##el 16A RC1B2

Para%e'er P>

!#i' Val&e

6eference channel 6.#4 &!!8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs

Allocate subframes per 6aio &rame (

!#i' Val&e

6eference channel 6.#51&!!

6.#5 &!!

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs 2

Allocate subframes per 6aio &rame(

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A.#.4.2 '!!

Table A.3.8.2-1: 5i,e Reere#$e a##el PS RC1B3

Para%e'er P>

!#i' Val&e

6eference channel 6. '!! 6.#3 '!!8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / Uplin!o%nlin 8onfi;uration(nformation 7it +ayloa (

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Table A.3.8.2-3: 5i,e Reere#$e a##el 69A RC2B3

Para%e'er P>

!#i' Val&e

6eference channel 6.#51'!! 6.#5 '!!

8hannel ban%ith M9" 1. # 1 1 2

Allocate resource blocs 2 Uplin!o%nlin 8onfi;uration(

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A.#.5 6eference measurement channels for sustaine o%nlinata rate provie by lo%er layers

A.#.5.1 &!!

Table A.3..1-1: 5i,e Reere#$e a##el or s&s'ai#e a'a-ra'e 'es' (5**)

Para%e'er !#i' Val&e

6eference channel 6.#11&!!

6.#12&!!

6.#1#&!!

6.#1#A &!!

6.#1&!!

6.#1&!!

8hannel ban%ith M9" 1 1 2 1 2 1Allocate resource blocs (

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A.#.5.2 '!!

Table A.3..2-1: 5i,e Reere#$e a##el or s&s'ai#e a'a-ra'e 'es' (T**)

Para%e'er !#i' Val&e

6eference channel 6.#11

'!!

6.#12

'!!

6.#1#

'!!

6.#1#A

'!!

6.#1

'!!8hannel ban%ith M9" 1 1 2 1 2Allocate resource blocs

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A.#.5.# &!! (=+!889 scheulin;)

Table A.3..3-1: 5i,e Reere#$e a##el or s&s'ai#e a'a-ra'e 'es' wi' P*> s$e&li#4 (5**)

Para%e'er !#i' Val&e

6eference channel 6.#1=1

&!!

6.#1=2

&!!

6.#1=#

&!!

6.#1=#A

&!!

6.#1=

&!!8hannel ban%ith M9" 1 1 2 1 2Allocate resource blocs (

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Allocate resource blocs

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7loc (other%ise L 7it).7 transmissions in subframe for all ban%iths. 8*> 1

This section defines the # signal applica$le to the reporting of channel qualit! information (%lause E.2, E.1 and E.6).

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Table A.9-0: Overview o S reere#$e %eas&re%e#' $a##els

*&+le, Table a%e / o TR RROse'

!a'e4

o'es

S Peror%a#$e P*S> 5&ll allo$a'io# (RS)

&!! 'able A.1 1 8*> 8*> '!! 'able A.2 1 8*> 8*>

S Peror%a#$e or A P*S> 5&ll allo$a'io#

'!! 'able A.2 2 8*> 8*> 1

S Peror%a#$e P*S> 5&ll allo$a'io# (S-RS): 2 RS +or's

&!! 'able A.1a 1 8*> 8*>

'!! 'able A.2a 1 8*> 8*>

S Peror%a#$e P*S> 5&ll allo$a'io# (S-RS): 1 RS +or'

&!! 'able A.1b 1 8*> 8*>

'!! 'able A.2b 1 8*> 8*>

S Peror%a#$e P*S> Par'ial allo$a'io# (RS) (6 R-s)

&!! 'able A. 1 8*> 8*> /

'!! 'able A. 1 8*> 8*> /

S Peror%a#$e P*S> Par'ial allo$a'io# (S-RS) (6 R-s)

&!! 'able A.a 1 8*> 8*> /

'!! 'able A.a 1 8*> 8*> /

S Peror%a#$e P*S> Par'ial allo$a'io# (S +ro$ess) (6 R-s)

&!! 'able A.b 1 8*> 8*>

'!! 'able A.b 1 8*> 8*>

S Peror%a#$e P*S> Par'ial allo$a'io# (RS) (1? R-s)

&!! 'able A.3 1 8*> 8*> 1

'!! 'able A.4 1 8*> 8*> 1S Peror%a#$e P*S> Par'ial allo$a'io# (RS) (3 R-s)

&!! 'able A.1 1 8*> 8*> #

'!! 'able A.11 1 8*> 8*> #

The reference channel in Ta$le A.4- complies with the %/< definition specified in *ec. .2.1 of 3&5. Ta$le A.4-1specifies the transport format corresponding to each %/< for single antenna transmission. Ta$le A.4-1a specifies the

transport format corresponding to each %/< for dual antenna transmission.

Table A.9-1: Reere#$e $a##el or re@&ire%e#'s (5**) &ll PR allo$a'io# (RS)

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / 1 2 3 1,ubcarriers per resource bloc 12 12 12 12 12 12Allocate subframes per 6aio &rame 4 4 4 4 4 4Moulation 'able

A.#'ableA.

#a

'ableA.#;

'ar;et coin; rate 'ableA.#

'ableA.

#a

'ableA.#;

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Table A.9-1a: Reere#$e $a##el or re@&ire%e#'s (5**) &ll PR allo$a'io# (S-RS) : 2 RS+or's

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / 1 2 3 1,ubcarriers per resource bloc 12 12 12 12 12 12Allocate subframes per 6aio &rame 4 4 4 4 4 4Moulation 'able

A.#b'able

A.#c'ar;et coin; rate 'able

A.#b'able

A.#c

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Table A.9-1: Reere#$e $a##el or re@&ire%e#'s (5**) &ll PR allo$a'io# (S-RS a# S-) :2 RS +or's

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / 1 2 3 1

,ubcarriers per resource bloc 12 12 12 12 12 12Allocate subframes per 6aio &rame 4 4 4 4 4 4

Moulation 'ableA.#b

'ableA.#i

'ar;et coin; rate 'ableA.#b

'ableA.#i

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Table A.9-2b: Reere#$e $a##el or re@&ire%e#'s (T**) &ll PR allo$a'io# (S-RS): 1 RS +or'

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / 1 2 3 1,ubcarriers per resource bloc 12 12 12 12 12 12Allocate subframes per 6aio &rame 2 2 2 2 2 2

Moulation 'ableA.#e

'ableA.#f

'ar;et coin; rate 'ableA.#e

'ableA.#f

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Table A.9-3: Tra#s+or' or%a' $orres+o#i#4 'o ea$ i#e, or ?0 PR allo$a'io# si#4le a#'e##a'ra#s%issio# (RS)

i#e, o&la'io# Tar4e' $oe ra'e %$s #or%a'io#i' Paloa

i#ara##el i's

Per S&b-5ra%e

out of ran;e out of ran;e !'N 1 *+,- .3/2 1#4 12/2 *+,- .1132 1#4 12/# *+,- .144 2 221/ 12/ *+,- .#4 #/2 12/ *+,- .#4 / 1/ 12// *+,- .435 4 /5/4 12/3 1/*AM .#/51 11 43/ 224 1/*AM .34 1# 114 225 1/*AM ./1/ 1/ 12/ 221 /*AM .1 14 1/1/ #3411 /*AM .#3 21 21#4 #3412 /*AM ./ 2# 2/ #34

1# /*AM .3#5 2 24##/ #341 /*AM .42 23 #13 #341 /*AM .524 23 #13 #34

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Table A.9-3b: Tra#s+or' or%a' $orres+o#i#4 'o ea$ i#e, or ?0 PR allo$a'io# (S-RS): 2RS +or's o# S-RS s&bra%e

i#e, o&la'io# Tar4e' $oera'e

%$s #or%a'io#i' Paloa

i#ara##el i's

Per S&b-5ra%e

out of ran;e out of ran;e !'N -

1 *+,- .3/2 1#4 14

2 *+,- .1132 1#4 14

# *+,- .144 2 221/ 14

*+,- .#4 # 24/ 14

*+,- .#4 #52 14

/ *+,- .435 3 /2 14

3 1/*AM .#/51 1 3552 21/

4 1/*AM .34 12 5512 21/

5 1/*AM ./1/ 1 125/ 21/

1 /*AM .1 13 12/ #211 /*AM .#3 15 14##/ #2

12 /*AM ./ 21 21#4 #2

1# /*AM .3#5 2# 2/ #2

1 /*AM .42 2 23#3/ #2

1 /*AM .524 2 24##/ #2

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Table A.9-3: Tra#s+or' or%a' $orres+o#i#4 'o ea$ i#e, or ?0 PR allo$a'io# (S-RS): 2RS +or's 8 S-RS +or's S-RS S&bra%e

i#e, o&la'io# Tar4e' $oera'e

%$s #or%a'io#i' Paloa

i#ara##el i's

Per S&b-5ra%e

out of ran;e out of ran;e !'N -

1 *+,- .3/2 1#4 1

2 *+,- .1132 1#4 1

# *+,- .144 1 14 1

*+,- .#4 # 24/ 1

*+,- .#4 #52 1

/ *+,- .435 3 /2 1

3 1/*AM .#/51 1 3552 2

4 1/*AM .34 12 5512 2

5 1/*AM ./1/ 1# 114 2

1 /*AM .1 13 12/ #11 /*AM .#3 14 1/1/ #

12 /*AM ./ 2 1544 #

1# /*AM .3#5 22 2252 #

1 /*AM .42 2# 2/ #

1 /*AM .524 2 23#3/ #

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Table A.9-3: Tra#s+or' or%a' $orres+o#i#4 'o ea$ i#e, or ?0 PR allo$a'io# (S-RS): 1RS +or' 2 S-RS +or's S-RS S&bra%e

i#e, o&la'io# Tar4e' $oera'e

%$s #or%a'io#i' Paloa

i#ara##el i's

Per S&b-5ra%e

out of ran;e out of ran;e !'N -

1 *+,- .3/2 1#4 112

2 *+,- .1132 1#4 112

# *+,- .144 2 221/ 112

*+,- .#4 #/2 112

*+,- .#4 / 1/ 112

/ *+,- .435 3 /2 112

3 1/*AM .#/51 1 3552 22

4 1/*AM .34 12 5512 22

5 1/*AM ./1/ 1 125/ 22

1 /*AM .1 13 12/ ##/11 /*AM .#3 15 14##/ ##/

12 /*AM ./ 21 21#4 ##/

1# /*AM .3#5 2# 2/ ##/

1 /*AM .42 2 24##/ ##/

1 /*AM .524 2/ #3/ ##/

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Table A.9-3: Tra#s+or' or%a' $orres+o#i#4 'o ea$ i#e, or ?0 PR allo$a'io# (S-RS): 2RS +or's 2 S-RS +or's S-RS S&bra%e

i#e, o&la'io# Tar4e' $oera'e

%$s #or%a'io#i' Paloa

i#ara##el i's

Per S&b-5ra%e

out of ran;e out of ran;e !'N -

1 *+,- .3/2 1#4 1/

2 *+,- .1132 1#4 1/

# *+,- .144 1 14 1/

*+,- .#4 # 24/ 1/

*+,- .#4 #52 1/

/ *+,- .435 3 /2 1/

3 1/*AM .#/51 1 3552 212

4 1/*AM .34 12 5512 212

5 1/*AM ./1/ 1 125/ 212

1 /*AM .1 13 12/ #1411 /*AM .#3 15 1/1/ #14

12 /*AM ./ 21 1544 #14

1# /*AM .3#5 22 2252 #14

1 /*AM .42 2 23#3/ #14

1 /*AM .524 2 24##/ #14

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Table A.9-3E: Tra#s+or' or%a' $orres+o#i#4 'o ea$ i#e, or ?0 PR allo$a'io# (S-RS a#S-): 2 RS +or's 8 S-RS +or's 9

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Table A.9-9a: Reere#$e $a##el or re@&ire%e#'s (5**) 6 PR allo$a'io# (S-RS)

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / / / / / /,ubcarriers per resource bloc 12 12 12 12 12 12Allocate subframes per 6aio &rame 4 4 4 4 4 4

Moulation 'ableA./a

'ableA./b

'ar;et coin; rate 'ableA./a

'ableA./b

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Table A.9-?a: Reere#$e $a##el or re@&ire%e#'s (T**) 6 PR allo$a'io# (S-RS)

Para%e'er !#i' Val&e

8hannel ban%ith M9" 1. # 1 1 2Allocate resource blocs / / / / / /,ubcarriers per resource bloc 12 12 12 12 12 12Allocate subframes per 6aio &rame

Moulation 'ableA./a

'ableA./b

'ar;et coin; rate 'ableA./a

'ableA./b

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Table A.9-6a: Tra#s+or' or%a' $orres+o#i#4 'o ea$ i#e, or 6 PR allo$a'io# (S-RS): 1RS +or' o# S-RS s&bra%e

i#e, o&la'io# Tar4e' $oe ra'e %$s #or%a'io#i' Paloa

i#ara##el i's

Per S&b-5ra%e

out of ran;e out of ran;e !'N 1 *+,- .3/2 12 1#/42 *+,- .1132 12 1#/4# *+,- .144 2 2/ 1#/4 *+,- .#4 4 1#/4 *+,- .#4 / / 1#/4/ *+,- .435 4 44 1#/43 1/*AM .#/51 11 1#2 23#/4 1/*AM .34 1# 1#2 23#/5 1/*AM ./1/ 1 1 23#/1 /*AM .1 13 14 111 /*AM .#3 2 2# 112 /*AM ./ 21 2/ 11# /*AM .3#5 2# 254 11 /*AM .42 2 #5/ 11 /*AM .524 23 #32 1

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Table A.9-6$: Tra#s+or' or%a' $orres+o#i#4 'o ea$ i#e, or 6 PR allo$a'io# (S +ro$ess):2 RS +or's o# S-RS a# o# S- s&bra%e

i#e, o&la'io# Tar4e' $oe ra'e %$s #or%a'io#i' Paloa

i#ara##el i's

Per S&b-5ra%e

out of ran;e out of ran;e !'N 1 *+,- .3/2 12 12 *+,- .1132 12 1# *+,- .144 2 2/ 1 *+,- .#4 4 1 *+,- .#4 / / 1/ *+,- .435 4 44 13 1/*AM .#/51 11 1#2 2444 1/*AM .34 1# 1#2 2445 1/*AM ./1/ 1 13#/ 2441 /*AM .1 14 1524 #211 /*AM .#3 2 2# #212 /*AM ./ 22 2352 #21# /*AM .3#5 2 #2 #21 /*AM .42 2/ #/2 #21 /*AM .524 23 #32 #2

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Table A.9-: Tra#s+or' or%a' $orres+o#i#4 'o ea$ i#e, or 1? PR allo$a'io# (RS)

i#e, o&la'io# Tar4e' $oe ra'e %$s #or%a'io#i' Paloa

i#ara##el i's

Per S&b-5ra%e

out of ran;e out of ran;e !'N 1 *+,- .3/2 #52 #342 *+,- .1132 #52 #34# *+,- .144 2 /4 #34 *+,- .#4 1/ #34 *+,- .#4 / 1 #34/ *+,- .435 4 244 #343 1/*AM .#/51 11 2// 3/4 1/*AM .34 1# ##/4 3/5 1/*AM ./1/ 1/ 4 3/1 /*AM .1 14 5/4 11#11 /*AM .#3 21 // 11#

12 /*AM ./ 2# 34 11#1# /*AM .3#5 2 4 11#1 /*AM .42 23 524 11#1 /*AM .524 23 524 11#

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Table A.9-12: Tra#s+or' or%a' $orres+o#i#4 'o ea$ i#e, or 3 PR allo$a'io# (RS)

i#e, o&la'io# Tar4e' $oe ra'e %$s #or%a'io#i' Paloa

i#ara##el i's

Per S&b-5ra%e

out of ran;e out of ran;e !'N

1 *+,- .3/2 / 3/2 *+,- .1132 1 44 3/# *+,- .144 2 1 3/ *+,- .#4 22 3/ *+,- .#4 3 #24 3// *+,- .435 5 / 3/3 1/*AM .#/51 12 4 1124 1/*AM .34 1# 3 1125 1/*AM ./1/ 1/ 5 1121 /*AM .1 15 1/ 22/411 /*AM .#3 21 1244 22/412 /*AM ./ 2# 14 22/41# /*AM .3#5 2 13#/ 22/41 /*AM .42 23 14/ 22/41 /*AM .524 23 14/ 22/4

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A..1.1 $8 *a'a

S&bra%e

1 I ? / I 5

Allo$a'io#

&irst unallocate +67I

Last unallocate +67

&irst unallocate +67I

Last unallocate +67

&irst unallocate +67I

Last unallocate +67

*a'a

S&bra%e

1 I ? / I 5Allo$a'io#

I (&irst allocate +671)an

(Last allocate +67E1) I (

RBN )

I (&irst allocate +671)an

(Last allocate +67E1) I (

RBN )

I (&irst allocate +671)an

(Last allocate +67E1) I (

RBN )

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A..1.# $8

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&irst unallocate+67I

Last unallocate+67

(Allocation:all empty+67s)

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A..1./ $8 *a'a

S&bra%e

1 I ? / I 5Allo$a'io#

I (&irst allocate +67 offirst bloc 1)

an(Last allocate +67 of firstbloc E1) I (&irst allocate+67 of secon bloc 1)

I (&irst allocate +67 offirst bloc 1)

an(Last allocate +67 of firstbloc E1) I (&irst allocate+67 of secon bloc 1)

I (&irst allocate +67 offirst bloc 1)

an(Last allocate +67 of firstbloc E1) I (&irst allocate+67 of secon bloc 1)

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Table A.?.1.7-1: OP.7 5**: OG 5** Pa''er# we# &ser a'a is i# %&l'i+le #o#-$o#'i4&o&s blo$=s

Rela'ive +ower level PRB F

P*S> *a'a

S&bra%e

1 I ? / I 5Allo$a'io#

I (+67 , StartN )O

(+67 )(, mEndN ) I (+67

, mStartN )O

(+67 MEndN , ) I (+67

RBN )

I (+67 , StartN )O

(+67 )(, mEndN ) I (+67

, mStartN )O

(+67 MEndN , ) I (+67

RBN )

I (+67 , StartN )O

(+67 )(, mEndN ) I (+67

, mStartN )O

(+67 MEndN , ) I (+67

RBN )

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Table A.?.2.1-1: OP.1 T**: O#e sie #a%i$ OG T** Pa''er#

Rela'ive +ower level PRB F

P*S> *a'a

S&bra%e (o#l i available or *")

#? ? 3? 4? 5

an / (as normalsubframe)

*a'aS&bra%e (o#l i available or *")

#? ? /? 3? 4? 5(/ as normal subframe)

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A..2.# $8 *a'aS&bra%e

? 5 *a'a P> *a'aS&bra%e (o#l or *")

an / (asnormal

subframe)

1 (as specialsubframe)

#? ? 3 I 5

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&irstunallocate

+67I

Lastunallocate

+67

(Allocation: allempty +67sof !%+',)

(Allocation: allempty +67s)

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A..2./ $8

*a'aS&bra%e (o#l i available or *")

#? ? /? 3? 4? 5(/ as normal subframe)

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Table A.?.2.7-1: OP.7 T**: OG T** Pa''er# we# &ser a'a is i# %&l'i+le #o#-$o#'i4&o&s blo$=s

Rela'ive +ower level PRB FP*S>

*a'aS&bra%e (o#l i available or *")

#? ? /? 3? 4? 5(/ as normal subframe)

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Annex 7 (normative):+ropa;ation conitions

7.1 ,tatic propa;ation conitionFor 2 port transmission the channel matrix is defined in the frequenc! domain $!

=

j

j

H .

For 4 port transmission the channel matrix is defined in the frequenc! domain $!

j jj j

= H

For port transmission the channel matrix is defined in the frequenc! domain $!

j j j j

j j j j

=

H

7.2 Multipath fain; propa;ation conitionsThe multipath propagation conditions consist of several parts

- A dela! profile in the form of a Mtapped dela!-lineM, characteri=ed $! a num$er of taps at fixed positions on asampling grid. The profile can $e further characteri=ed $! the r.m.s. dela! spread and the maximum dela! spanned $!

the taps.

- A com$ination of channel model parameters that include the ela! profile and the oppler spectrum, that is

characteri=ed $! a classical spectrum shape and a maximum oppler frequenc!

- A set of correlation matrices defining the correlation $etween the U and e9ode? antennas in case of multi-antenna

s!stems.

- Additional multi-path models used for %/< (%hannel /ualit!

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Table .2.1-2 ,'e#e Pees'ria# A %oel (PA)

,$ess 'a+ elaF#s

Rela'ive +owerF

.# 1.3 2.

5 #.11 4.15 13.21 2.4

Table .2.1-3 ,'e#e Vei$&lar A %oel (VA)

,$ess 'a+ elaF#s

Rela'ive +owerF

.# 1.

1 1.

#1 #./#3 ./31 5.115 3.13# 12.21 1/.5

Table .2.1-9 ,'e#e T+i$al !rba# %oel (T!)

,$ess 'a+ elaF#s

Rela'ive +owerF

1. 1.

12 1.2 .2# . .1/ #.2# . 3.

7.2.2 8ombinations of channel moel parametersTa$le ?.2.2- shows propagation conditions that are used for the performance measurements in multi-path fading

environment for low, medium and high oppler frequencies

Table .2.2-1 a##el %oel +ara%e'ers

oel a,i%&% *o++lerre@&e#$

=+A 9" 9"=PA 9" 9"=PA 39" 3 9"=PA 29" 2 9"='U #9" # 9"='U 39" 3 9"='U #9" # 9"

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7.2.# M>M$ 8hannel 8orrelation MatricesThe ;M$ 8orrelation Matrices

Ta$le ?.2.1.- defines the correlation matrix for the e9ode?

Table .2.3.1-1 eoe $orrela'io# %a'ri,

O#e a#'e##a Two a#'e##as 5o&r a#'e##as

e

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Table .2.3.1-3: spatR $orrela'io# %a'ri$es

1,2 $ase

==

N

UEspat RR

2,2 $ase

=

==

NNNN

NN

NN

NN

UEeNBspat RRR

9,2 $ase

==

N

E

E4

N

E

E

E4

E4

E

E

E4

E

NN

NN

N

UEeNBspat RRR

9,9 $ase

==

N

E

N

E4

N

E

N

E

N

E4

E4

E

N

E

E4

E

E

E4

N

E

E

E4

E4

E

E

E4

E

NN

NN

N

UEeNBspat RRR

For cases with more antennas at either e9ode? or U or $oth, the channel spatial correlation matrix can still $e

expressed as the 7ronec0er product of eNBR and UER according to UEeNBspat RRR = .

7.2.#.2 M>M$ 8orrelation Matrices at 9i;h? Meium an Lo% Level

The and for different correlation t!pes are given in Ta$le ?.2.1.2-.

Table .2.3.2-1

"ow $orrela'io# ei&% orrela'io# >i4 orrela'io#

.# .5 .5 .5

The correlation matrices for high, medium and low correlation are defined in Ta$le ?.2.1.-2, ?.2.1.2-1 and ?.2.1.2-4,as $elow.

The values in Ta$le ?.2.1.2-2 have $een ad:usted for the 4x2 and 4x4 high correlation cases to insure the correlationmatrix is positive semi-definite after round-off to 4 digit precision. This is done using the equation

)8(53 aaInspatialhih ++= RR

"here the value QaR is a scaling factor such that the smallest value is used to o$tain a positive semi-definite result. For

the 4x2 high correlation case, aK@.@@@@. For the 4x4 high correlation case, aK@.@@@2.

The same method is used to ad:ust the 4x4 medium correlation matrix in Ta$le ?.2.1.2-1 to insure the correlation matrixis positive semi-definite after round-off to 4 digit precision with a K @.@@@2.

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Table .2.3.2-2: O $orrela'io# %a'ri$es or i4 $orrela'io#

1,2 $ase

=

E.@

E.@hihR

2,2 $ase

=

E.@E.@F.@

E.@F.@E.@

E.@F.@E.@

F.@E.@E.@

hihR

9,2 $ase

=

.@@@@@.FEEE@.EFF1@.FFE4@.E642@.F6F(@.FEEE@.F@EE

@.FEEE.@@@@@.FFE4@.EFF1@.F6F(@.E642@.F@EE@.FEEE

@.EFF1@.FFE4.@@@@@.FEEE@.EFF1@.FFE4@.E642@.F6F(

@.FFE4@.EFF1@.FEEE.@@@@@.FFE4@.EFF1@.F6F(@.E642

@.E642@.F6F(@.EFF1@.FFE4.@@@@@.FEEE@.EFF1@.FFE4

@.F6F(@.E642@.FFE4@.EFF1@.FEEE.@@@@@.FFE4@.EFF1

@.FEEE@.F@EE@.E642@.F6F(@.EFF1@.FFE4.@@@@@.FEEE

@.F@EE@.FEEE@.F6F(@.E642@.FFE4@.EFF1@.FEEE.@@@@

hihR

9,9 $ase

=

@.FFE@.E64@.E41@@.E@6@.F6F@.FEEE@.FFE4@.F6F@.F@EE

@.E41@.E41@@.E64@.E41@@.E@6@.FFE4@.FEEE@.FFE4@.F6F

@.E&@.E@6@.E41@@.E64@.E41@@.F6F@.FFE4@.FEEE@.FFE4

@.EFF@.F6F@.E@6@.E41@@.E64@.F@EE@.F6F@.FFE4@.FEEE

@.FEE@.EFF2@.E&@.E41@@.FFE4@.E64@.E41@@.E@6@.F6F

@.E64@.E&@.EFF2@.E&@.E41@@.E41@@.E64@.E41@@.E@6

@.EFF@.E41@@.E&@.EFF2@.E&@.E@6@.E41@@.E64@.E41@

.@@@@@.FFE4@.E41@@.E&@.EFF2@.F6F@.E@6@.E41@@.E64

@.FFE4.@@@@@.EFF2@.E64@.FEEE@.EFF2@.E&@.E41@@.FFE4

@.E41@@.EFF2.@@@@@.EFF2@.E64@.E&@.EFF2@.E&@.E41@

@.E&@.E64@.EFF2.@@@@@.EFF2@.E41@@.E&@.EFF2@.E&

@.EFF2@.FEEE@.E64@.EFF2.@@@@@.FFE4@.E41@@.E&@.EFF2

@.F6F@.EFF2@.E&@.E41@@.FFE4.@@@@@.EFF2@.E64@.FEEE

@.E@6@.E&@.EFF2@.E&@.E41@@.EFF2.@@@@@.EFF2@.E64@.E41@@.E41@@.E&@.EFF2@.E&@.E64@.EFF2.@@@@@.EFF2

@.E64@.FFE4@.E41@@.E&@.EFF2@.FEEE@.E64@.EFF2.@@@@

hihR

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Table .2.3.2-3: O $orrela'io# %a'ri$es or %ei&% $orrela'io#

1,2$ase

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7.2.#A M>M$ 8hannel 8orrelation Matrices usin; cross polari"eantennas

The ;M$ 8orrelation Matrices usin; cross polari"eantennas

For the channel spatial correlation matrix, the following is used

( ) $UEeNBspat

PRRPR =

where

- UER is the spatial correlation matrix at the U with same polari=ation,

- eNBR is the spatial correlation matrix at the e9? with same polari=ation,

- is a polari=ation correlation matrix, and

- $)( denotes transpose.

The matrix is defined as

=

@@

@@

@@

@@

%

A permutation matrixPelements are defined as

( )( ) ( )

( ) ( )

+==+=+=

==+=+=

=

"ther#ise

NtNtjNriiNrNrNtj&andiNrja'"r

NtjNriiNrj&andiNrja'"r

&aP

@

,,28,,,,282

28,,,,,2

,

.

where tN and rN is the num$er of transmitter and receiver respectivel!. This is used to map the spatial correlationcoefficients in accordance with the antenna element la$elling s!stem descri$ed in ?.2.1A.

7.2.#A.2 ,patial 8orrelation Matrices usin; cross polari"e antennas at e

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For 4-antenna transmitter using two pairs of cross-polari=ed antenna elements,

= 1

.

eNB

R .

For -antenna transmitter using four pairs of cross-polari=ed antenna elements,

=

N

E

N

E

4

N

E

N

E

N

E4

E4

E

N

E

E4

E

eNBR .

7.2.#A.2.2 ,patial 8orrelation Matrices at U= sie

For 2-antenna receiver using one pair of cross-polari=ed antenna elements, =UER .

For 4-antenna receiver using two pairs of cross-polari=ed antenna elements,

= 1

.UER

.

7.2.#A.# M>M$ 8orrelation Matrices usin; cross polari"e antennas

The values for parameters (,)and *for high spatial correlation are given in Ta$le ?.2.1A.1-.

Table .2.3A.3-1

>i4 s+a'ial $orrela'io#

.5 .5 .#

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Table .2.3A.3-2: O $orrela'io# %a'ri$es or i4 s+a'ial $orrela'io#

8,2 $ase

.@@@@ @.@@@@ @.EFF1 @.@@@@ @.E642 @.@@@@ @.FEEE @.@@@@ -@.1@@@ @.@@@@ -@.2E&6 @.@@@@ -@.2F&2 @.@@@@ -@.2(@@ @.@@@@

@.@@@@ .@@@@ @.@@@@ @

hihR =

.EFF1 @.@@@@ @.E642 @.@@@@ @.FEEE @.@@@@ @.1@@@ @.@@@@ @.2E&6 @.@@@@ @.2F&2 @.@@@@ @.2(@@

@.EFF1 @.@@@@ .@@@@ @.@@@@ @.EFF1 @.@@@@ @.E642 @.@@@@ -@.2E&6 @.@@@@ -@.1@@@ @.@@@@ -@.2E&6 @.@@@@ -@.2F&2 @.@@@@

@.@@@@ @.EFF1 @.@@@@ .@@@@ @.@@@@ @.EFF1 @.@@@@ @.E642 @.@@@@ @.2E&6 @.@@@@ @.1@@@ @.@@@@ @.2E&6 @.@@@@ @.2F&2

@.E642 @.@@@@ @.EFF1 @.@@@@ .@@@@ @.@@@@ @.EFF1 @.@@@@ -@.2F&2 @.@@@@ -@.2E&6 @.@@@@ -@.1@@@ @.@@@@ -@.2E&6 @.@@@@

@.@@@@ @.E642 @.@@@@ @.EFF1 @.@@@@ .@@@@ @.@@@@ @.EFF1 @.@@@@ @.2F&2 @.@@@@ @.2E&6 @.@@@@ @.1@@@ @.@@@@ @.2E&6

@.FEEE @.@@@@ @.E642 @.@@@@ @.EFF1 @.@@@@ .@@@@ @.@@@@ -@.2(@@ @.@@@@ -@.2F&2 @.@@@@ -@.2E&6 @.@@@@ -@.1@@@ @.@@@@

@.@@@@ @.FEEE @.@@@@ @.E642 @.@@@@ @.EFF1 @.@@@@ .@@@@ @.@@@@ @.2(@@ @.@@@@ @.2F&2 @.@@@@ @.2E&6 @.@@@@ @.1@@@

-@.1@@@ @.@@@@ -@.2E&6 @.@@@@ -@.2F&2 @.@@@@ -@.2(@@ @.@@@@ .@@@@ @.@@@@ @.EFF1 @.@@@@ @.E642 @.@@@@ @.FEEE @.@@@@

@.@@@@ @.1@@@ @.@@@@ @.2E&6 @.@@@@ @.2F&2 @.@@@@ @.2(@@ @.@@@@ .@@@@ @.@@@@ @.EFF1 @.@@@@ @.E642 @.@@@@ @.FEEE

-@.2E&6 @.@@@@ -@.1@@@ @.@@@@ -@.2E&6 @.@@@@ -@.2F&2 @.@@@@ @.EFF1 @.@@@@ .@@@@ @.@@@@ @.EFF1 @.@@@@ @.E642 @.@@@@

@.@@@@ @.2E&6 @.@@@@ @.1@@@ @.@@@@ @.2E&6 @.@@@@ @.2F&2 @.@@@@ @.EFF1 @.@@@@ .@@@@ @.@@@@ @.EFF1 @.@@@@ @.E642

-@.2F&2 @.@@@@ -@.2E&6 @.@@@@ -@.1@@@ @.@@@@ -@.2E&6 @.@@@@ @.E642 @.@@@@ @.EFF1 @.@@@@ .@@@@ @.@@@@ @.EFF1 @.@@@@

@.@@@@ @.2F&2 @.@@@@ @.2E&6 @.@@@@ @.1@@@ @.@@@@ @.2E&6 @.@@@@ @.E642 @.@@@@ @.EFF1 @.@@@@ .@@@@ @.@@@@ @.EFF1

-@.2(@@ @.@@@@ -@.2F&2 @.@@@@ -@.2E&6 @.@@@@ -@.1@@@ @.@@@@ @.FEEE @.@@@@ @.E642 @.@@@@ @.EFF1 @.@@@@ .@@@@ @.@@@@

@.@@@@ @.2(@@ @.@@@@ @.2F&2 @.@@@@ @.2E&6 @.@@@@ @.1@@@ @.@@@@ @.FEEE @.@@@@ @.E642 @.@@@@ @.EFF1 @.@@@@ .@@@@

7.2.#A. 7eam steerin; approach

Iiven the channel spatial correlation matrix in ?.2.1A., the corresponding random channel matrix Hcan $e calculated.The signal model for the 0-th su$frame is denoted as

n+,HD-.

+=

"here

- + is the 9r x9tchannel matrix per su$carrier.

-.

D is the steering matrix, which is

=

.

.

.

.

j

j

j

e

e

eD

1

2

@@@

@@@

@@@@@@

@

@,

- . controls the phase variation, and the phase for 0-th su$frame is denoted $! .. += @ , where @ is the

random start value with the uniform distri$ution, i.e., [ ] 2,@@ , is the step of phase variation, which isdefined in Ta$le ?.2.1A.4-, and .is the linear increment of for ever! su$frame throughout the simulation,

- + is the precoding matrix for transmission antennas,

- - is the received signal, , is the transmitted signal, and n is A"I9.

Table .2.3A.9-1: Te s'e+ o +ase varia'io#

Varia'io# S'e+ Val&e (raBs&bra%e)

1.2//Q1#

7.2. +ropa;ation conitions for 8*> testsFor %hannel /ualit!

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in continuous time ),( t representation, with d the dela!, aa constant and D' the oppler frequenc!. The same

h(t,/) is used to descri$e the fading channel $etween ever! pair of Tx and 'x.

7.2..1 +ropa;ation conitions for 8*> tests %ith multiple 8,> processes

For %/< tests with multiple %*< processes, the following additional multi-path profile is used for 2 port transmission

MPHj

jH

=

"here represents +adamard product, MPH indicates the 2x2 propagation channel generated in the manner definedin %lause ?.2.4.

7.2. Poi

7.2./ M7,&< +ropa;ation 8hannel +rofileTa$le ?.2.&- shows propagation conditions that are used for the ;?*F9 performance requirements in multi-pathfading environment in an extended dela! spread environment.

Table .2.6-1: Pro+a4a'io# o#i'io#s or &l'i-Pa' 5ai#4 #viro#%e#'s or S5 Peror%a#$eRe@&ire%e#'s i# a# e,'e#e ela s+rea e#viro#%e#'

,'e#e *ela S+rea

a,i%&% *o++ler re@&e#$ F?>

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7.# 9i;h spee train scenarioThe high speed train condition for the test of the $ase$and performance is a non fading propagation channel with onetap. oppler shift is given $!

( ) ( )t't' ds cos= (?.1.)

where ( )t's is the oppler shift and d' is the maximum oppler frequenc!. The cosine of angle ( )t is given $!

( )( )22min 22

cos

0tDD

0tDt

s

s

+

= , 0Dt s@ (?.1.2)

( )( ) 22

min6.

6.cos

0tDD

0tDt

s

s

++

+= , 0Dt0D ss 2< (?.1.1)

( ) ( ))2(modcoscos 0Dtt s = , 0Dt s2> (?.1.4)

where 2sD is the initial distance of the train from e9ode?, and minD is e9ode? 'ailwa! trac0 distance, $oth in

meters> 0 is the velocit! of the train in m8s, t is time in seconds.

oppler shift and cosine angle are given $! equation ?.1. and ?.1.2-?.1.4 respectivel!, where the required inputparameters listed in ta$le ?.1- and the resulting oppler shift shown in Figure ?.1- are applied for all frequenc!

$ands.

Table .3-1: >i4 s+ee 'rai# s$e#ario

Para%e'er Val&e

sD # m

minD 2 m

0 # mh

d' 3 9"

9DT arameters for +*T conditions in ta$le ?.1- including d'

and oppler shift tra:ectories presented on

figure ?.1- were derived for ?and .

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5i4&re .3-1: *o++ler si' 'raEe$'or

For x2 antenna configuration, the same h(t,/) is used to descri$e the channel $etween ever! pair of Tx and 'x.

For 2x2 antenna configuration, the same h(t,/) is used to descri$e the channel $etween ever! pair of Tx and 'x with

phase shift according to

=j

j

H .

7. 7eamformin; Moel

7..1 ,in;lelayer ranom beamformin; (Antenna port ? 3? or 4)*ingle-la!er transmission on antenna port 6 or on antenna port or without a simultaneous transmission on the other

antenna port, is defined $! using a precoder vector )(i+ of si=e 2 randoml! selected with the num$er of la!ers= from Ta$le &.1.4.2.1- in 345 as $eamforming weights. This precoder ta0es as an input the signal )()( i- p ,

,...,,@ aps!m$ = Mi , for antenna port SF,,6Tp , withaps!m$M the num$er of modulation s!m$ols including

the user-specific reference s!m$ols ('*), and generates a $loc0 of signals [ ]$&'&'&' i-i-i- )(U)()( = theelements of which are to $e mapped onto the same ph!sical ' $ut transmitted on different antenna elements

( ) )(

)(U

)()( i-i+

i-

i-p

&'

&'=

*ingle-la!er transmission on antenna port or with a simultaneous transmission on the other antenna port, is defined

$! using a pair of precoder vectors )( i+ and )(2 i+ each of si=e 2 , which are not identical and randoml!selected with the num$er of la!ers = from Ta$le &.1.4.2.1- in 345, as $eamforming weights, and normali=ing thetransmit power as follows

( )( ))()()(2

)(U)(

)F(2

)( i-i+i-i+i-

i-

&'

&'+=

The precoder update granularit! is specific to a test case.

The %*< reference s!m$ols)(

,pl.a satisf!ing 2mod =p , { }22,..,&,6p , are transmitted on the same

ph!sical antenna element as the modulation s!m$ols )(i-&' . The %*< reference s!m$ols)(

,

p

l.a satisf!ing

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@2mod =p , { }22,..,&,6p , are transmitted on the same ph!sical antenna element as the modulations!m$ols )(

U i-&' .

7..2 !uallayer ranom beamformin; (antenna ports 3 an 4)

ual-la!er transmission on antenna ports and is defined $! using a precoder matrix )(i+ of si=e 22 randoml! selected with the num$er of la!ers 2= from Ta$le &.1.4.2.1- in 345 as $eamforming weights. This

precoder ta0es as an input a $loc0 of signals for antenna ports and , [ ]$i-i-i- )()()( )F()(= ,,...,,@ aps!m$= Mi , with

aps!m$M $eing the num$er of modulation s!m$ols per antenna port including the user-

specific reference s!m$ols, and generates a $loc0 of signals [ ]$&'&'&' i-i-i- )(U)()( = the elements of which areto $e mapped onto the same ph!sical ' $ut transmitted on different antenna elements

( )

=

)(

)(

)(U)(

)F(

)(

i-

i-i+

i-

i-

&'

&',

The precoder update granularit! is specific to a test case.

The %*< reference s!m$ols)(

,

p

l.a satisf!ing 2mod =p , { }22,..,&,6p , are transmitted on the sameph!sical antenna element as the modulation s!m$ols )(i-&' . The %*< reference s!m$ols

)(

,

p

l.a satisf!ing

@2mod =p , { }22,..,&,6p , are transmitted on the same ph!sical antenna element as the modulations!m$ols )(

U i-&' .

7..# Generic beamformin; moel (antenna ports 31)

The transmission on antenna port(s) &,...,F, += p is defined $! using a precoder matrix )(i+ of si=eCSIN , where CSIN is the num$er of %*< reference signals configured per test and is the num$er of spatial

la!ers. This precoder ta0es as an input a $loc0 of signals for antenna port(s) &,...,F, += p ,( ) ( ) ( ) ( ) ( ) ( ) ( )i-i-i-i- p += &F)( , ,...,,@ aps!m$ = Mi , with aps!m$M $eing the num$er of

modulation s!m$ols per antenna port including the user-specific reference s!m$ols (;-'*), and generates a $loc0 of

signals ( ) [ ]$N&'&'&'1

&' i-i-i-i- CSI )()()()(

)()()@( = the elements of which are to $e mapped onto the same

time-frequenc! index pair ( )l., $ut transmitted on different ph!sical antenna elements

=

+ )(

)(

)(

)(

)(

)(

)(

)&(

)F(

)(

)(

)(

)@(

i-

i-

i-

i+

i-

i-

i-

CSIN

&'

&'

&'

The precoder matrix )(i+ is specific to a test case.

The ph!sical antenna elements are identified $! indices ,...,,@ = AN$Nj , where CSIAN$ NN = is thenum$er of ph!sical antenna elements configured per test.

;odulation s!m$ols )()(i-

1

&' with { },...,,@ CSIN1 (i.e. $eamformed *%+ and ;-'*) are mapped to

the ph!sical antenna index 1j=

.

;odulation s!m$ols )()( i- p with { },...,,@ Pp (i.e. ?%+, %%+, +

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;odulation s!m$ols)(

,

p

l.a with { },...,,@ Pp (i.e. %'*) are mapped to the ph!sical antenna index pj = ,where P is the num$er of cell-specific reference signals configured per test.

;odulation s!m$ols)(

,

p

l.a with { }CSINp + 4,...,&,6 (i.e. %*

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7..1 !ominant interferer proportionach interfering cell involved in enhanced performance requirements T!pe-A is characteri=ed $! its associated

dominant interferer proportion (

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7.. 'ransmission moe 5 interference moelThis su$clause provides transmission mode E interference modelling for each explicitl! modelled interfering cell in the

requirement scenario.

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Annex 8 (normative):!o%nlin +hysical 8hannels

8.1 GeneralThis annex specifies the downlin0 ph!sical channels that are needed for setting a connection and channels that areneeded during a connection.

8.2 ,etupTa$le %.2- descri$es the downlin0 h!sical %hannels that are required for connection set up.

Table .2-1: *ow#li#= Psi$al a##els re@&ire

or $o##e$'io# se'-&+

Psi$al a##el

+789,,,+,,

+8&>89+!889+9>89+!,89

8.# 8onnectionThe following clauses, descri$es the downlin0 h!sical %hannels that are transmitted during a connection i.e., whenmeasurements are done.

8.#.1 Measurement of 6eceiver 8haracteristicsTa$le %.1.- is applica$le for measurements on the 'eceiver %haracteristics (clause ).

Table .3.1-1: *ow#li#= Psi$al a##els 'ra#s%i''e &ri#4 a $o##e$'io# (5** a# T**)

Psi$al a##el PR Ra'io

+789 +7896A 7+78967 7

+,, +,,6A 7,,, ,,,6A 7+8&>89 +8&>8967 7+!889 +!8896A 7

+!88967 7+!,89 +!,896A 7

+!,8967 7$8

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Table .3.1-2: Power allo$a'io# or O5* s%bols a# reere#$e si4#als

Para%e'er !#i' Val&e o'e

'ransmitte po%er spectral

ensity "rI

7m1 9" 'est specific 1. "rI shall be ept

constant throu;houtall $&!M symbols

8ellspecific referencesi;nal po%er ratio

"rRS IE 8

7

8.#.2 Measurement of +erformance re@uirementsTa$le %.1.2- is applica$le for measurements in which uniform '*-to-' $oosting for all downlin0 ph!sicalchannels.

Table .3.2-1: *ow#li#= Psi$al a##els 'ra#s%i''e &ri#4 a $o##e$'io# (5** a# T**)

Psi$al a##el PR Ra'io

+789 +7896A AE +78967 7E

+,, +,,6A (8967 7E +!889 +!8896A AE

+!88967 7E =+!889 =+!8896A A

=+!88967 7+!,89 +!,896A A

+!,8967 7

+M89 +M896A A+M8967 7

M7,&< 6, M7,&< 6,6A AM7,&< 6,67 7

$8

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Table .3.2-2: Power allo$a'io# or O5* s%bols a# reere#$e si4#als

Para%e'er !#i' Val&e o'e

'otal transmitte po%er

spectral ensity "rI

7m1 9" 'est specific 1. "rI shall be ept

constant throu;hout all$&!M symbols

8ellspecific referencesi;nal po%er ratio

"rRS IE 8

'est specific 1. Applies for antennaport p

=ner;y per resourceelement =+6=

'est specific 1. 'he complexvalue

symbols )()( i- p an)(

,pl.a efine in BC shall

conform to the ;iven=+6= value.2. &or 'M4? 'M5? an'M1 the reference pointfor =+6= is before theprecoer in Annex 7..

8.#.# A;;ressor cell po%er allocation for Measurement of+erformance 6e@uirements %hen A7, is 8onfi;ure

For the performance requirements and channel state information reporting when A?* is configured, the powerallocation for the ph!sical channels of the aggressor cell in non-A?* and A?* is listed in Ta$le %.1.1-.

Table .3.3-1: *ow#li#= +si$al $a##els 'ra#s%i''e i# a44ressor $ell we# AS is $o#i4&re i#'is $ell

Psi$al a##el Para%e'ers !#i' PR Ra'ioo#-AS AS

+789+7896A 7 A

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Table .3.3-2: *ow#li#= +si$al $a##els 'ra#s%i''e i# a44ressor $ell we# AS is $o#i4&re i#'is $ell we# 'e RS assis'a#$e i#or%a'io# is +rovie

Psi$al a##elPara%e'ers

!#i'PR Ra'io

o#-AS AS

+789+7896A 7 A A+78967 7 7 7

+,, +,,6A 7 A A,,, ,,,6A 7 A A

+8&>89 +8&>8967 7 7 89+9>896A 7 A 8967 7 7

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Annex ! (normative):8haracteristics of the interferin; si;nal

!.1 General"hen the channel $and width is wider or equal to 6;+=, a modulated 6;+= full $and width -UT'A down lin0 signal

and %" signal are used as interfering signals when 'F performance requirements for -UT'A U receiver are defined.For channel $and widths $elow 6;+=, the $and width of modulated interferer should $e equal to $and width of the

received signal.

!.2 >nterference si;nalsTa$le .2- descri$es the modulated interferer for different channel $and width options.

Table *.2-1: *es$ri+'io# o %o&la'e -!TRA i#'ererer

a##el ba#wi'

1.9 >< 3 >< ? >< 10 >< 1? >< 20 >nterferer 1. M9" # M9" M9" M9" M9" M9"67 / 1 2 2 2 2

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Annex = (normative):=nvironmental conitions

=.1 GeneralThis normative annex specifies the environmental requirements of the U. "ithin these limits the requirements of the

present documents shall $e fulfilled.

=.2 =nvironmentalThe requirements in this clause appl! to all t!pes of U(s).

=.2.1 'emperatureThe U shall fulfil all the requirements in the full temperature range of

Table .2.1-1

E18 to E#8 for normal conitions (%ith relative humiity of 2 R to 3 R)

18 to E8 for extreme conitions (see >=8 publications /421 an /422)

Dutside this temperature range the U, if powered on, shall not ma0e ineffective use of the radio frequenc! spectrum.

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=.2.# PibrationThe U shall fulfil all the requirements when vi$rated at the following frequenc!8amplitudes.

Table .2.3-1

5re@&e#$ AS* (A$$elera'io# S+e$'ral *e#si') ra#o% vibra'io#

9" to 2 9" ?5/ m2s#

2 9" to 9" ?5/ m2s#at 2 9"? thereafter I# 7$ctave

Dutside the specified frequenc! range the U, if powered on, shall not ma0e ineffective use of the radio frequenc!

spectrum.

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Annex & (normative):'ransmit moulation

&.1 Measurement +ointFigure F.- shows the measurement point for the unwanted emission falling into non-allocated '?(s) and the Y; for

the allocated '?(s).

5i4&re 5.1-1: V %eas&re%e#' +oi#'s

&.2 7asic =rror Pector Ma;nitue measurementThe Y; is the difference $etween the ideal waveform and the measured waveform for the allocated '?(s)

( ) ( )

@

2W

P$

0i02

E3Mm

$0 m

= ,

where

m$ is a set of m$ modulation s!m$ols with the considered modulation scheme $eing active within the

measurement period,

( )02W are the samples of the signal evaluated for the Y;,

( )0i is the ideal signal reconstructed $! the measurement equipment, and

@P is the average power of the ideal signal. For normali=ed modulation s!m$ols @P is equal to .

The $asic Y; measurement interval is defined over one slot in the time domain for U%%+ and U*%+ and over one

pream$le sequence for the 'A%+.

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&.# 7asic inban emissions measurementThe in-$and emissions are a measure of the interference falling into the non-allocated resources $loc0s. The in-$andemission requirement is evaluated for U%%+ and U*%+ transmissions. The in-$and emission requirement is not

evaluated for 'A%+ transmissions.

The in-$and emissions are measured as follows

>

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{ }

=

),(U

U2

U2

),(U.)

U(

),(W'tj

t'j0'j

e'ta

eet0255$ID5$'t6

where

)(02 is the time domain samples of the signal under test.

The U%%+ or U*%+ demodulation reference signal or U%%+ data signal under test is equalised and, in the case ofU%%+ data signal decoded according to

),(U

U2

U2

),(U.)

U(

),(W'tj

t'j0'j

e'ta

eet0255$'t6

=

where

)(02 is the time domain samples of the signal under test.

To minimi=e the error, the signal under test should $e modified with respect to a set of parameters following theprocedure explained $elow.

9otation

tU is the sample timing difference $etween the FFT processin