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A.17.20.1 Description of the model

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This path loss model was developed by ITU-R and its detailed description can be found in [1].  The model was developed for the evaluation of candidate IMT-Advanced Radio Interface Technologies in the frequency band 2–6 GHz and for the following environments: urban macro (UMa), urban micro (UMi), suburban macro (SMa), rural macro (RMa), and indoor hotspot (InH). Note that only outdoor scenarios UMa, SMa, and RMa are implemented in SEAMCAT. The path loss model from Report ITU-R M.2135-1 is an empirical path loss model based on measurements results carried out in IST-WINNER II project [2], as well as results from the literature. The model supports LOS and NLOS propagation conditions as well as the LOS probabilities. This model includes clutter loss and as such, it is not to be combined with the clutter loss model of Recommendation ITU-R P.2108-0.


Table 1:  ITUITU-R M.2135-1 Path Loss model

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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

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

Mathblock
PL_{RMa-NLOS}=161.04-7.1\log_{10}{W+7.5\log_{10}{h}}-\left(24.37-3.7\left(\frac{h}{h_{BS}}\right)^2\right)\log_{10}{h_{BS}}+(43.42-3.1\log_{10}{h_{BS})(\log_{10}{d-3)}}+20\log_{10}f_c-(3.2\left(\log_{10}\left(11.75h_{MS}\right)\right)^2-4.97)

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σSF=8

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

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

Scenario

LOS probability

UMa

Mathinline
body--uriencoded--P_%7BLOS%7D=\min%7B\left(\frac%7B18%7D%7Bd%7D,\ 1\right)%7D\cdot\left(1-\exp%7B\left(-\frac%7Bd%7D%7B63%7D\right)%7D\right)%7B+%7D\exp%7B\left(-\frac%7Bd%7D%7B63%7D\right)%7D

SMa

Mathinline
body--uriencoded--P_%7BLOS%7D=1,d≤10

Mathinline
body--uriencoded--P_%7BLOS%7D=exp(-(d-10)/200) ,d>10
RMa

Mathinline
body--uriencoded--P_%7BLOS%7D=1,d≤10

Mathinline
body--uriencoded--P_%7BLOS%7D=exp(-(d-10)/1000) ,d>10

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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.
Image RemovedImage Added
Figure 1: GUI of the ITU-R M.2135-1 path loss model


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

Description

Symbol

Type

Unit

Comments

Variation

σSF

B

dB

Variation in path loss (applies shadow fading)

Scenario

-

S

-

Urban Macro Cell (UMa), Suburban Macro Cell (SMa) or Rural Macro Cell (RMa)

Line of Sight

-

S

-

Line of Sight (LOS), Non-Line of Sight (NLOS), or LOS Probabilities

Street width

W

D

m

Average street width

Building height

h

D

m

Average building height

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