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A.17.20.1 Description of the model

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This

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path

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loss

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model

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was

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developed

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by

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ITU-R

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and

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its

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detailed

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description

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can

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be

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found

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in

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[1

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].

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  The

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model

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was

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developed

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for

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the

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evaluation

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of

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candidate

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IMT-Advanced

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Radio

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Interface

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Technologies

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in

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the

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frequency

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band

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2–6

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GHz

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and

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for

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the

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following

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environments:

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urban

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macro

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(UMa),

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urban

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micro

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(UMi),

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suburban

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macro

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(SMa),

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rural

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macro

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(RMa),

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and

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indoor

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hotspot

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(InH).

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Note

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that

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only

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outdoor

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scenarios

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UMa,

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SMa,

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and

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RMa

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are

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implemented

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in

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SEAMCAT.

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The

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path

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loss

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model

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from

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Report

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ITU-R

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M.2135-1

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is

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an

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empirical

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path

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loss

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model

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based

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on

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measurements

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results

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carried

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out

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in

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IST-WINNER

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II

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project

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[2

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],

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as

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well

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as

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results

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from

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the

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literature.

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The

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model

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supports

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LOS

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and

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NLOS

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propagation

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conditions

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as

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well

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as

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the

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LOS

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probabilities.

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This

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model

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includes

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clutter

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loss

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and

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as

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such,

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it

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is

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not

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to

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be

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combined

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with

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the

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clutter

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loss

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model

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of

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Recommendation

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ITU-R

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P.2108-0.

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Table 1: ITU-R M.2135-1

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Path

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Scenario

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LOS/NLOS

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Path Loss [dB]

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Shadow fading std [dB]

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Applicability ranges and default values [m]

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Urban Macro (UMa)

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LOS

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PLUMa-LOS= PL1, 10 m≤d≤dBP'PL2, dBP'≤d≤5 km , (see Note 1)

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σSF=4

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hMS=1.5
hBS=25

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PL1=28.0+22log10d+20log10fc

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PL2=7.8+40log10d-18.0log10hBS'-18.0log10hMS'+2.0log10fc

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NLOS

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PLUMa-NLOS=161.04-7.1log10W+7.5log10h-24.37-3.7hhBS2log10hBS+(43.42-3.1log10hBS))log10d-3+20log10 fc-(3.2log1011.75hMS2-4.97)

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σSF=6

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hBS=25
hMS=1.5
W=20
h=20
10≤d≤5000
10≤hBS≤150
1≤hMS≤10
5≤W≤50
5≤h≤50

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Suburban Macro (SMa)

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LOS

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PLSMa-LOS= PL1, 10 m≤d≤dBP'PL2, dBP'≤d≤5 km , (see Note 2)

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PL1=20log10(40πd3Dfc/3)+min0.03h1.72, 10log10d- min0.044h1.72, 14.77+0.002dlog10h

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σSF=4

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PL2=PL1dBP+40log10ddBP

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σSF=6

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NLOS

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PLSMa-NLOS=161.04-7.1log10W+7.5log10h-24.37-3.7hhBS2log10hBS+(43.42-3.1log10hBS)(log10d-3)+20log10fc-(3.2log1011.75hMS2-4.97)

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σSF=8

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Rural Maro (RMa)

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LOS

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PLRMa-LOS= PL1, 10 m≤d≤dBP'PL2, dBP'≤d≤10 km , (see Note 2)

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PL1=20log10(40πdfc/3)+min0.03h1.72, 10log10d- min0.044h1.72, 14.77+0.002dlog10h

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σSF=4

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PL2=PL1dBP+40log10ddBP

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σSF=6

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NLOS

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σSF=8

Note 1:
Breakpoint distance dBP'=4hBS'hMS'fc/c, where fc Loss model

Image Added

Note 1:
Breakpoint distance

Mathinline
body --uriencoded--%7B\ d%7D_%7BBP%7D%5e\prime=4h_%7BBS%7D%5e\prime h_%7BMS%7D%5e\prime f_c/c,

 where fc is the centre frequency in Hz, c=3×108 m/s is the propagation velocity in free space, and hBS' and hMS' are the effective antenna heights at the BS and the MS, respectively. The effective antenna heights hBS' and hMS' are computed as follows: hBS'=hBS-hE, hMS'=hMS-hE, where hBS and hMS are the actual antenna heights, and hE is the effective environment height assumed to be hE=1 m.

Note 2:
Break point distance dBP=2πhBShMSfc

Mathinline
body --uriencoded--d_%7BBP%7D=2\pi h_%7BBS%7Dh_%7BMS%7Df_c/c,

where  where fc is the centre frequency in Hz, c=3×108 m/s is the propagation velocity in free space, and hBS and hMS are the antenna heights at the BS and the MS, respectively.

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SEAMCAT specific implementation:hBS=maxhTx, hRx
hMS=minhTx, hRx
Anchor_Ref529442393_Ref529442393

Mathinline
body --uriencoded--h_%7BBS%7D=\max%7B\left(h_%7BTx%7D,\ h_%7BRx%7D\right)%7D

Mathinline
body --uriencoded--h_%7BMS%7D=\min%7B\left(h_%7BTx%7D,\ h_%7BRx%7D\right)%7D

Table 2: LOS Probability

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Note: According to Report ITU-R M.2135-1,

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the

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LOS

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probabilities

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are

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used

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only

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for

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system

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level

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simulations.

In case the LOS probability is used, the path loss is computed as follows:

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The input parameters for the path loss model ITU-R M.2135-1 are shown in Figure 1 and defined in Table 3.
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Anchor_Ref507762590_Ref507762590Image Added
Figure 1: GUI of the ITU-R M.2135-1 path loss model
Anchor_Ref507762636_Ref507762636

Table 3: Parameters of the ITU-R M.2135-1 path loss model

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