Link Budget Diseño 3G

63
322725847.xls Security Level: 07/01/2016 HUAWEI Confidential Page1of63 Value Value Value Value

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LB 3G

Transcript of Link Budget Diseño 3G

Page 1: Link Budget Diseño 3G

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Output ParametersInput Parameters

Interval ParametersRecommended Parameters

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Dense Urban In-BldgUplink Downlink

Scenarios Dense Urban In-BldgTMA Used No

Environment Indoor

Continuous coverage service AMR12.2 AMR12.2

BLER requirement 1.0% 1.0%

Bearer Type AMR AMR

Bearer Rate(Kbps) 12.2 12.2

Tx Uplink Downlink

Max. NodeB transmit power(dBm) 43

Max. TCH transmit power (dBm) 21 33

Cable loss Tx (dB) 0 0.5

Body loss Tx (dB) 3 0

Antenna gain Tx (dBi) 0 18

EIRP (dBm) 18 50.5

Rx Uplink Downlink

Antenna gain Rx (dBi) 18 0

Cable loss Rx (dB) 0.5 0

Body loss Rx (dB) 0 3

Noise figure (dB) 2.10 7

Required Eb/No (dB) 5.4 7.8

Receiver sensitivity (dBm) -125.64 -118.34

Target load 0.5 0.72

Non-orthogonallty @cell edge N/A 0.55

Interference margin (dB) 3.01 1.68

Fast fading margin (dB) 0.8 0

-139.83 -113.65

Path loss (dB)Penetration loss (dB) 22

Area coverage probability 95%

Slow Fading Standard Deviation 11.7

Slow fading margin (dB) 8.26

Path loss (dB) 127.57 133.89 Cell radius (km)

UE antenna height (m) 1.5

NodeB antenna height (m) 28

Frequency (MHz) 1890 1970

Propagation model used Cost231-Hata

Cell radius (km) 0.43 0.63

Cell Coverage Radius 0.43

Min. signal reception strength (dBm)

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Formula Urban In-BldgUplink

Scenarios Urban In-BldgTMA Used No

Environment Indoor

a Continuous coverage service AMR12.2

BLER requirement 1.0%

Bearer Type AMR

Bearer Rate(Kbps) 12.2

Tx Uplink

Max. NodeB transmit power(dBm) 43

b Max. TCH transmit power (dBm) 21

c Cable loss Tx (dB) 0

d Body loss Tx (dB) 3

e Antenna gain Tx (dBi) 0

f = b-c-d+e EIRP (dBm) 18

Rx Uplink

g Antenna gain Rx (dBi) 18

h Cable loss Rx (dB) 0.5

i Body loss Rx (dB) 0

j=h+1.6 Noise figure (dB) 2.10

k Required Eb/No (dB) 5.7

l=-174+j+k+10*log10(a*1000) Receiver sensitivity (dBm) -125.34

m Target load 0.5

Non-orthogonallty @cell edge N/A

n=-10*log10(1-m) Interference margin (dB) 3.01

o Fast fading margin (dB) 0

p=l+n+o-g+i -140.33

Path loss (dB)q Penetration loss (dB) 20

Area coverage probability 95%

Slow Fading Standard Deviation 9.4

r Slow fading margin (dB) 6.04

s=f-p-q-r Path loss (dB) 132.29 Cell radius (km)

UE antenna height (m) 1.5

NodeB antenna height (m) 28

Frequency (MHz) 1890

Propagation model used Cost231-Hata

Cell radius (km) 0.72

Cell Coverage Radius 0.72

Min. signal reception strength (dBm)

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Urban In-Bldg Formula Urban LightDownlink

Urban In-Bldg ScenariosNo TMA Used

Indoor Environment

AMR12.2 a Continuous coverage service

1.0% BLER requirement

AMR Bearer Type

12.2 Bearer Rate(Kbps)

Downlink Tx

43 Max. NodeB transmit power(dBm)

33 b Max. TCH transmit power (dBm)

0.5 c Cable loss Tx (dB)

0 d Body loss Tx (dB)

18 e Antenna gain Tx (dBi)

50.5 f = b-c-d+e EIRP (dBm)

Downlink Rx

0 g Antenna gain Rx (dBi)

0 h Cable loss Rx (dB)

3 i Body loss Rx (dB)

7 j=h+1.6 Noise figure (dB)

8.1 k Required Eb/No (dB)

-118.04 l=-174+j+k+10*log10(a*1000) Receiver sensitivity (dBm)

0.7 m Target load

0.66 Non-orthogonallty @cell edge

1.88 n=-10*log10(1-m) Interference margin (dB)

0 o Fast fading margin (dB)

-113.16 p=l+n+o-g+i

Path loss (dB) Path loss (dB)20 q Penetration loss (dB)

95% Area coverage probability

9.4 Slow Fading Standard Deviation

6.04 r Slow fading margin (dB)

137.62 s=f-p-q-r Path loss (dB)Cell radius (km) Cell radius (km)

1.5 UE antenna height (m)

28 NodeB antenna height (m)

1970 Frequency (MHz)

Cost231-Hata Propagation model used

0.98 Cell radius (km)

0.72 Cell Coverage Radius

Min. signal reception strength (dBm)

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Urban Light FormulaUplink Downlink

Urban LightNo

Indoor

AMR12.2 AMR12.2 a

1.0% 1.0%

AMR AMR

12.2 12.2

Uplink Downlink

43

21 33 b

0 0.5 c

3 0 d

0 18 e

18 50.5 f = b-c-d+e

Uplink Downlink

18 0 g

0.5 0 h

0 3 i

2.10 7 j=h+1.6

5.7 8.1 k

-125.34 -118.04 l=-174+j+k+10*log10(a*1000)

0.5 0.7 m

N/A 0.66

3.01 1.88 n=-10*log10(1-m)

0 0 o

-140.33 -113.16 p=l+n+o-g+i

Path loss (dB)20 q

95%

9.4

6.04 r

132.29 137.62 s=f-p-q-rCell radius (km)

1.5

28

1890 1970

Cost231-Hata

0.72 0.98

0.72

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Suburban In-BldgUplink Downlink

Scenarios Suburban In-BldgTMA Used No

Environment Indoor

Continuous coverage service AMR12.2 AMR12.2

BLER requirement 1.0% 1.0%

Bearer Type AMR AMR

Bearer Rate(Kbps) 12.2 12.2

Tx Uplink Downlink

Max. NodeB transmit power(dBm) 43

Max. TCH transmit power (dBm) 21 33

Cable loss Tx (dB) 0 0.5

Body loss Tx (dB) 3 0

Antenna gain Tx (dBi) 0 18

EIRP (dBm) 18 50.5

Rx Uplink Downlink

Antenna gain Rx (dBi) 18 0

Cable loss Rx (dB) 0.5 0

Body loss Rx (dB) 0 3

Noise figure (dB) 2.10 7

Required Eb/No (dB) 5.7 8.1

Receiver sensitivity (dBm) -125.34 -118.04

Target load 0.5 0.6

Non-orthogonallty @cell edge N/A 0.72

Interference margin (dB) 3.01 1.60

Fast fading margin (dB) 0 0

-140.33 -113.44

Path loss (dB)Penetration loss (dB) 15

Area coverage probability 95%

Slow Fading Standard Deviation 7.2

Slow fading margin (dB) 4.01

Path loss (dB) 139.32 144.93 Cell radius (km)

UE antenna height (m) 1.5

NodeB antenna height (m) 38

Frequency (MHz) 1890 1970

Propagation model used Cost231-Hata

Cell radius (km) 2.19 3.06

Cell Coverage Radius 2.19

Min. signal reception strength (dBm)

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Formula Rural In-BldgUplink

Scenarios Rural In-BldgTMA Used No

Environment Indoor

a Continuous coverage service AMR12.2

BLER requirement 1.0%

Bearer Type AMR

Bearer Rate(Kbps) 12.2

Tx Uplink

Max. NodeB transmit power(dBm) 43

b Max. TCH transmit power (dBm) 21

c Cable loss Tx (dB) 0

d Body loss Tx (dB) 3

e Antenna gain Tx (dBi) 0

f = b-c-d+e EIRP (dBm) 18

Rx Uplink

g Antenna gain Rx (dBi) 18

h Cable loss Rx (dB) 0.5

i Body loss Rx (dB) 0

j=h+1.6 Noise figure (dB) 2.10

k Required Eb/No (dB) 4.5

l=-174+j+k+10*log10(a*1000) Receiver sensitivity (dBm) -126.54

m Target load 0.5

Non-orthogonallty @cell edge N/A

n=-10*log10(1-m) Interference margin (dB) 3.01

o Fast fading margin (dB) 0

p=l+n+o-g+i -141.53

Path loss (dB)q Penetration loss (dB) 10

Area coverage probability 95%

Slow Fading Standard Deviation 6.2

r Slow fading margin (dB) 3.13

s=f-p-q-r Path loss (dB) 146.40 Cell radius (km)

UE antenna height (m) 1.5

NodeB antenna height (m) 52

Frequency (MHz) 1890

Propagation model used Cost231-Hata

Cell radius (km) 6.67

Cell Coverage Radius 6.67

Min. signal reception strength (dBm)

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Rural In-Bldg Formula Rural HighwayDownlink

Rural In-Bldg ScenariosNo TMA Used

Indoor Environment

AMR12.2 a Continuous coverage service

1.0% BLER requirement

AMR Bearer Type

12.2 Bearer Rate(Kbps)

Downlink Tx

43 Max. NodeB transmit power(dBm)

33 b Max. TCH transmit power (dBm)

0.5 c Cable loss Tx (dB)

0 d Body loss Tx (dB)

18 e Antenna gain Tx (dBi)

50.5 f = b-c-d+e EIRP (dBm)

Downlink Rx

0 g Antenna gain Rx (dBi)

0 h Cable loss Rx (dB)

3 i Body loss Rx (dB)

7 j=h+1.6 Noise figure (dB)

8.3 k Required Eb/No (dB)

-117.84 l=-174+j+k+10*log10(a*1000) Receiver sensitivity (dBm)

0.5 m Target load

0.54 Non-orthogonallty @cell edge

1.25 n=-10*log10(1-m) Interference margin (dB)

0 o Fast fading margin (dB)

-113.59 p=l+n+o-g+i

Path loss (dB) Path loss (dB)10 q Penetration loss (dB)

95% Area coverage probability

6.2 Slow Fading Standard Deviation

3.13 r Slow fading margin (dB)

150.96 s=f-p-q-r Path loss (dB)Cell radius (km) Cell radius (km)

1.5 UE antenna height (m)

52 NodeB antenna height (m)

1970 Frequency (MHz)

Cost231-Hata Propagation model used

8.74 Cell radius (km)

6.67 Cell Coverage Radius

Min. signal reception strength (dBm)

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Rural Highway FormulaUplink Downlink

Rural HighwayNo

Indoor

AMR12.2 AMR12.2 a

1.0% 1.0%

AMR AMR

12.2 12.2

Uplink Downlink

43

21 33 b

0 0.5 c

3 0 d

0 18 e

18 50.5 f = b-c-d+e

Uplink Downlink

18 0 g

0.5 0 h

0 3 i

2.10 7 j=h+1.6

5.2 8.1 k

-125.84 -118.04 l=-174+j+k+10*log10(a*1000)

0.5 0.5 m

N/A 0.56

3.01 1.19 n=-10*log10(1-m)

0 0 o

-140.83 -113.84 p=l+n+o-g+i

Path loss (dB)6 q

95%

6.2

3.13 r

149.70 155.21 s=f-p-q-rCell radius (km)

1.5

52

1890 1970

Cost231-Hata

8.36 11.69

8.36

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Dense Urban In-BldgUplink Downlink

Scenarios Dense Urban In-BldgTMA Used No

Environment Indoor

Continuous coverage service HSUPA 12.2 HSDPA 12.2

BLER requirement - -

Bearer Type HSUPA HSDPA

Bearer Rate(Kbps) 12.2 12.2

Tx Uplink Downlink

Max. NodeB transmit power(dBm) 43

Max. TCH transmit power (dBm) 24 40.17

Cable loss Tx (dB) 0 0.5

Body loss Tx (dB) 3 0

Antenna gain Tx (dBi) 0 18

Backoff Power (dB) 1.5 -

EIRP (dBm) 19.5 57.67

Rx Uplink Downlink

Antenna gain Rx (dBi) 18 0

Cable loss Rx (dB) 0.5 0

Body loss Rx (dB) 0 3

Noise figure (dB) 2.10 7

Required Ec/No (dB) -18.9 -19.92

Receiver sensitivity (dBm) -124.96 -121.08

Target load 0.5 0.72

Non-orthogonallty @cell edge N/A 0.55

Interference margin (dB) 3.01 0.14

Fast fading margin (dB) 0.2 0

-139.75 -117.93

Path loss (dB)Penetration loss (dB) 22

Area coverage probability 95%

Slow Fading Standard Deviation 11.7

Slow fading margin (dB) 8.19 14.11

Path loss (dB) 129.06 139.49 Cell radius (km)

UE antenna height (m) 1.5

NodeB antenna height (m) 28

Frequency (MHz) 1890 1970

Propagation model used Cost231-Hata

Cell radius (km) 0.48 0.91

Min. signal reception strength (dBm)

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Cell Coverage Radius 0.48

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Formula Urban In-BldgUplink

Scenarios Urban In-BldgTMA Used No

Environment Indoor

a Continuous coverage service HSUPA 12.2

SBLER requirement -

Bearer Type HSUPA

Bearer Rate(Kbps) 12.2

Tx Uplink

Max. NodeB transmit power(dBm) 43

b Max. TCH transmit power (dBm) 24

c Cable loss Tx (dB) 0

d Body loss Tx (dB) 3

e Antenna gain Tx (dBi) 0

Backoff Power (dB) 1.5

f = b-c-d+e EIRP (dBm) 19.5

Rx Uplink

g Antenna gain Rx (dBi) 18

h Cable loss Rx (dB) 0.5

i Body loss Rx (dB) 0

j=h+1.6 Noise figure (dB) 2.10

k Required Ec/No (dB) -18.23

l=-174+10*log10(3.84E6)+j+k Receiver sensitivity (dBm) -124.29

m Target load 0.5

Non-orthogonallty @cell edge N/A

n=-10*log10(1-m) Interference margin (dB) 3.01

o Fast fading margin (dB) 0.2

p=l+n+o-g+i -139.08

Path loss (dB)q Penetration loss (dB) 20

Area coverage probability 95%

Slow Fading Standard Deviation 9.4

r Slow fading margin (dB) 5.98

s=f-p-q-r Path loss (dB) 132.60 Cell radius (km)

UE antenna height (m) 1.5

NodeB antenna height (m) 28

Frequency (MHz) 1890

Propagation model used Cost231-Hata

Cell radius (km) 0.73

Min. signal reception strength (dBm)

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Cell Coverage Radius 0.73

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Urban In-Bldg Formula Urban LightDownlink

Urban In-Bldg ScenariosNo TMA Used

Indoor Environment

HSDPA 12.2 a Continuous coverage service

- SBLER requirement

HSDPA Bearer Type

12.2 Bearer Rate(Kbps)

Downlink Tx

43 Max. NodeB transmit power(dBm)

40 b Max. TCH transmit power (dBm)

0.5 c Cable loss Tx (dB)

0 d Body loss Tx (dB)

18 e Antenna gain Tx (dBi)

- Backoff Power (dB)

57.5 f = b-c-d+e EIRP (dBm)

Downlink Rx

0 g Antenna gain Rx (dBi)

0 h Cable loss Rx (dB)

3 i Body loss Rx (dB)

7 j=h+1.6 Noise figure (dB)

-20.9 k Required Ec/No (dB)

-122.06 l=-174+10*log10(3.84E6)+j+k Receiver sensitivity (dBm)

0.7 m Target load

0.66 Non-orthogonallty @cell edge

0.12 n=-10*log10(1-m) Interference margin (dB)

0 o Fast fading margin (dB)

-118.93 p=l+n+o-g+i

Path loss (dB) Path loss (dB)20 q Penetration loss (dB)

95% Area coverage probability

9.4 Slow Fading Standard Deviation

10.68 r Slow fading margin (dB)

145.75 s=f-p-q-r Path loss (dB)Cell radius (km) Cell radius (km)

1.5 UE antenna height (m)

28 NodeB antenna height (m)

1970 Frequency (MHz)

Cost231-Hata Propagation model used

1.66 Cell radius (km)

Min. signal reception strength (dBm)

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0.73 Cell Coverage Radius

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Urban Light FormulaUplink Downlink

Urban LightNo

Indoor

HSUPA 12.2 HSDPA 12.2 a

- -

HSUPA HSDPA

12.2 12.2

Uplink Downlink

43

24 40 b

0 0.5 c

3 0 d

0 18 e

1.5 -

19.5 57.5 f = b-c-d+e

Uplink Downlink

18 0 g

0.5 0 h

0 3 i

2.10 7 j=h+1.6

-18.23 -20.9 k

-124.29 -122.06 l=-174+10*log10(3.84E6)+j+k

0.5 0.7 m

N/A 0.66

3.01 0.12 n=-10*log10(1-m)

0.2 0 o

-139.08 -118.93 p=l+n+o-g+i

Path loss (dB)20 q

95%

9.4

5.98 10.68 r

132.60 145.75 s=f-p-q-rCell radius (km)

1.5

28

1890 1970

Cost231-Hata

0.73 1.66

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0.73

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Suburban In-BldgUplink Downlink

Scenarios Suburban In-BldgTMA Used No

Environment Indoor

Continuous coverage service HSUPA 12.2 HSDPA 12.2

SBLER requirement - -

Bearer Type HSUPA HSDPA

Bearer Rate(Kbps) 12.2 12.2

Tx Uplink Downlink

Max. NodeB transmit power(dBm) 43

Max. TCH transmit power (dBm) 24 39

Cable loss Tx (dB) 0 0.5

Body loss Tx (dB) 3 0

Antenna gain Tx (dBi) 0 18

Backoff Power (dB) 1.5 -

EIRP (dBm) 19.5 56.5

Rx Uplink Downlink

Antenna gain Rx (dBi) 18 0

Cable loss Rx (dB) 0.5 0

Body loss Rx (dB) 0 3

Noise figure (dB) 2.10 7

Required Ec/No (dB) -18.23 -20.9

Receiver sensitivity (dBm) -124.29 -122.06

Target load 0.5 0.6

Non-orthogonallty @cell edge N/A 0.72

Interference margin (dB) 3.01 0.14

Fast fading margin (dB) 0.2 0

-139.08 -118.92

Path loss (dB)Penetration loss (dB) 15

Area coverage probability 95%

Slow Fading Standard Deviation 7.2

Slow fading margin (dB) 3.98 7.52

Path loss (dB) 139.60 152.90 Cell radius (km)

UE antenna height (m) 1.5

NodeB antenna height (m) 38

Frequency (MHz) 1890 1970

Propagation model used Cost231-Hata

Cell radius (km) 2.23 5.20

Min. signal reception strength (dBm)

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Cell Coverage Radius 2.23

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Formula Rural In-BldgUplink

Scenarios Rural In-BldgTMA Used No

Environment Indoor

a Continuous coverage service HSUPA 12.2

BLER requirement -

Bearer Type HSUPA

Bearer Rate(Kbps) 12.2

Tx Uplink

Max. NodeB transmit power(dBm) 43

b Max. TCH transmit power (dBm) 24

c Cable loss Tx (dB) 0

d Body loss Tx (dB) 3

e Antenna gain Tx (dBi) 0

Backoff Power (dB) 1.5

f = b-c-d+e EIRP (dBm) 19.5

Rx Uplink

g Antenna gain Rx (dBi) 18

h Cable loss Rx (dB) 0.5

i Body loss Rx (dB) 0

j=h+1.6 Noise figure (dB) 2.10

k Required Ec/No (dB) -18.92

l=-174+10*log10(3.84E6)+j+k Receiver sensitivity (dBm) -124.98

m Target load 0.5

Non-orthogonallty @cell edge N/A

n=-10*log10(1-m) Interference margin (dB) 3.01

o Fast fading margin (dB) 0.2

p=l+n+o-g+i -139.77

Path loss (dB)q Penetration loss (dB) 10

Area coverage probability 95%

Slow Fading Standard Deviation 6.2

r Slow fading margin (dB) 2.93

s=f-p-q-r Path loss (dB) 146.34 Cell radius (km)

UE antenna height (m) 1.5

NodeB antenna height (m) 52

Frequency (MHz) 1890

Propagation model used Cost231-Hata

Cell radius (km) 6.64

Min. signal reception strength (dBm)

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Cell Coverage Radius 6.64

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Rural In-Bldg Formula Rural HighwayDownlink

Rural In-Bldg ScenariosNo TMA Used

Indoor Environment

HSDPA 12.2 a Continuous coverage service

- BLER requirement

HSDPA Bearer Type

12.2 Bearer Rate(Kbps)

Downlink Tx

43 Max. NodeB transmit power(dBm)

37.78 b Max. TCH transmit power (dBm)

0.5 c Cable loss Tx (dB)

0 d Body loss Tx (dB)

18 e Antenna gain Tx (dBi)

- Backoff Power (dB)

55.28 f = b-c-d+e EIRP (dBm)

Downlink Rx

0 g Antenna gain Rx (dBi)

0 h Cable loss Rx (dB)

3 i Body loss Rx (dB)

7 j=h+1.6 Noise figure (dB)

-18.32 k Required Ec/No (dB)

-119.48 l=-174+10*log10(3.84E6)+j+k Receiver sensitivity (dBm)

0.5 m Target load

0.54 Non-orthogonallty @cell edge

0.25 n=-10*log10(1-m) Interference margin (dB)

0 o Fast fading margin (dB)

-116.22 p=l+n+o-g+i

Path loss (dB) Path loss (dB)10 q Penetration loss (dB)

95% Area coverage probability

6.2 Slow Fading Standard Deviation

5.84 r Slow fading margin (dB)

155.66 s=f-p-q-r Path loss (dB)Cell radius (km) Cell radius (km)

1.5 UE antenna height (m)

52 NodeB antenna height (m)

1970 Frequency (MHz)

Cost231-Hata Propagation model used

12.06 Cell radius (km)

Min. signal reception strength (dBm)

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6.64 Cell Coverage Radius

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Rural Highway FormulaUplink Downlink

Rural HighwayNo

Indoor

HSUPA 12.2 HSDPA 12.2 a

- -

HSUPA HSDPA

12.2 12.2

Uplink Downlink

43

24 37.78 b

0 0.5 c

3 0 d

0 18 e

1.5 -

19.5 55.28 f = b-c-d+e

Uplink Downlink

18 0 g

0.5 0 h

0 3 i

2.10 7 j=h+1.6

-18.56 -19.26 k

-124.62 -120.42 l=-174+10*log10(3.84E6)+j+k

0.5 0.5 m

N/A 0.56

3.01 0.21 n=-10*log10(1-m)

0.2 0 o

-139.41 -117.21 p=l+n+o-g+i

Path loss (dB)6 q

95%

6.2

2.93 5.84 r

149.98 160.65 s=f-p-q-rCell radius (km)

1.5

52

1890 1970

Cost231-Hata

8.52 16.96

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8.52

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Dense Urban In-BldgDownlink

Scenarios Dense Urban In-Bldg

TMA Used No

Environment Indoor

Tx Downlink

Max. NodeB transmit power(dBm) 43

Pilot transmit power(dBm) 33

Cable loss Tx (dB) 0.5

Body loss Tx (dB) 0

Antenna gain Tx (dBi) 18

EIRP (dBm) 50.5

Rx Downlink

Antenna gain Rx (dBi) 0

Cable loss Rx (dB) 0

Body loss Rx (dB) 3

Noise figure (dB) 7

Required Ec/Io (dB) -12

Receiver sensitivity (dBm) -113.13

Target load 0.72

Non-orthogonallty @cell edge 1

Interference margin (dB) 7.37

Fast fading margin (dB) 0

-102.76

Path loss (dB)Penetration loss (dB) 22

Area coverage probability 95%

Slow Fading Standard Deviation 11.7

Slow fading margin (dB) 8.26

Path loss (dB) 123.00 Cell radius (km)

UE antenna height (m) 1.5

NodeB antenna height (m) 28

Frequency (MHz) 1970

Propagation model used Cost231-Hata

Cell Coverage Radius (km) 0.31

Min. signal reception strength (dBm)

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Formula Urban In-Bldg

Scenarios

TMA Used

Environment

Tx

Max. NodeB transmit power(dBm)

b Pilot transmit power(dBm)

c Cable loss Tx (dB)

d Body loss Tx (dB)

e Antenna gain Tx (dBi)

f = b-c-d+e EIRP (dBm)

Rx

g Antenna gain Rx (dBi)

h Cable loss Rx (dB)

i Body loss Rx (dB)

j Noise figure (dB)

k Required Ec/Io (dB)

l=10*log(KTW)+j+k Receiver sensitivity (dBm)

m Target load

Non-orthogonallty @cell edge

n Interference margin (dB)

o Fast fading margin (dB)

p=l+n+o-g+i

Path loss (dB)q Penetration loss (dB)

Area coverage probability

Slow Fading Standard Deviation

r Slow fading margin (dB)

s=f-p-q-r Path loss (dB)Cell radius (km)

UE antenna height (m)

NodeB antenna height (m)

Frequency (MHz)

Propagation model used

Cell Coverage Radius (km)

Min. signal reception strength (dBm)

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Urban In-Bldg FormulaDownlink

Urban In-Bldg

No

Indoor

Downlink

43

33 b

0.5 c

0 d

18 e

50.5 f = b-c-d+e

Downlink

0 g

0 h

3 i

7 j

-11.5 k

-112.63 l=10*log(KTW)+j+k

0.7 m

1

7.75 n

0 o

-101.89 p=l+n+o-g+i

Path loss (dB)20 q

95%

9.4

6.04 r

126.35 s=f-p-q-rCell radius (km)

1.5

28

1970

Cost231-Hata

0.47

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Urban LightDownlink

Scenarios Urban Light

TMA Used No

Environment Indoor

Tx Downlink

Max. NodeB transmit power(dBm) 43

Pilot transmit power(dBm) 33

Cable loss Tx (dB) 0.5

Body loss Tx (dB) 0

Antenna gain Tx (dBi) 18

EIRP (dBm) 50.5

Rx Downlink

Antenna gain Rx (dBi) 0

Cable loss Rx (dB) 0

Body loss Rx (dB) 3

Noise figure (dB) 7

Required Ec/Io (dB) -11.5

Receiver sensitivity (dBm) -112.63

Target load 0.7

Non-orthogonallty @cell edge 1

Interference margin (dB) 7.75

Fast fading margin (dB) 0

-101.89

Path loss (dB)Penetration loss (dB) 20

Area coverage probability 95%

Slow Fading Standard Deviation 9.4

Slow fading margin (dB) 6.04

Path loss (dB) 126.35 Cell radius (km)

UE antenna height (m) 1.5

NodeB antenna height (m) 28

Frequency (MHz) 1970

Propagation model used Cost231-Hata

Cell Coverage Radius (km) 0.47

Min. signal reception strength (dBm)

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Formula Suburban In-Bldg

Scenarios

TMA Used

Environment

Tx

Max. NodeB transmit power(dBm)

b Pilot transmit power(dBm)

c Cable loss Tx (dB)

d Body loss Tx (dB)

e Antenna gain Tx (dBi)

f = b-c-d+e EIRP (dBm)

Rx

g Antenna gain Rx (dBi)

h Cable loss Rx (dB)

i Body loss Rx (dB)

j Noise figure (dB)

k Required Ec/Io (dB)

l=10*log(KTW)+j+k Receiver sensitivity (dBm)

m Target load

Non-orthogonallty @cell edge

n Interference margin (dB)

o Fast fading margin (dB)

p=l+n+o-g+i

Path loss (dB)q Penetration loss (dB)

Area coverage probability

Slow Fading Standard Deviation

r Slow fading margin (dB)

s=f-p-q-r Path loss (dB)Cell radius (km)

UE antenna height (m)

NodeB antenna height (m)

Frequency (MHz)

Propagation model used

Cell Coverage Radius (km)

Min. signal reception strength (dBm)

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Suburban In-Bldg FormulaDownlink

Suburban In-Bldg

No

Indoor

Downlink

43

33 b

0.5 c

0 d

18 e

50.5 f = b-c-d+e

Downlink

0 g

0 h

3 i

7 j

-11.2 k

-112.33 l=10*log(KTW)+j+k

0.6 m

1

7.38 n

0 o

-101.96 p=l+n+o-g+i

Path loss (dB)15 q

95%

7.2

4.01 r

133.45 s=f-p-q-rCell radius (km)

1.5

38

1970

Cost231-Hata

1.42

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Rural In-BldgDownlink

Scenarios Rural In-Bldg

TMA Used No

Environment Indoor

Tx Downlink

Max. NodeB transmit power(dBm) 43

Pilot transmit power(dBm) 33

Cable loss Tx (dB) 0.5

Body loss Tx (dB) 0

Antenna gain Tx (dBi) 18

EIRP (dBm) 50.5

Rx Downlink

Antenna gain Rx (dBi) 0

Cable loss Rx (dB) 0

Body loss Rx (dB) 3

Noise figure (dB) 7

Required Ec/Io (dB) -11.2

Receiver sensitivity (dBm) -112.33

Target load 0.5

Non-orthogonallty @cell edge 1

Interference margin (dB) 6.59

Fast fading margin (dB) 0

-102.75

Path loss (dB)Penetration loss (dB) 10

Area coverage probability 95%

Slow Fading Standard Deviation 6.2

Slow fading margin (dB) 3.13

Path loss (dB) 140.12 Cell radius (km)

UE antenna height (m) 1.5

NodeB antenna height (m) 52

Frequency (MHz) 1970

Propagation model used Cost231-Hata

Cell Coverage Radius (km) 4.16

Min. signal reception strength (dBm)

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Formula Rural Highway

Scenarios

TMA Used

Environment

Tx

Max. NodeB transmit power(dBm)

b Pilot transmit power(dBm)

c Cable loss Tx (dB)

d Body loss Tx (dB)

e Antenna gain Tx (dBi)

f = b-c-d+e EIRP (dBm)

Rx

g Antenna gain Rx (dBi)

h Cable loss Rx (dB)

i Body loss Rx (dB)

j Noise figure (dB)

k Required Ec/Io (dB)

l=10*log(KTW)+j+k Receiver sensitivity (dBm)

m Target load

Non-orthogonallty @cell edge

n Interference margin (dB)

o Fast fading margin (dB)

p=l+n+o-g+i

Path loss (dB)q Penetration loss (dB)

Area coverage probability

Slow Fading Standard Deviation

r Slow fading margin (dB)

s=f-p-q-r Path loss (dB)Cell radius (km)

UE antenna height (m)

NodeB antenna height (m)

Frequency (MHz)

Propagation model used

Cell Coverage Radius (km)

Min. signal reception strength (dBm)

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Rural Highway FormulaDownlink

Rural Highway

No

Indoor

Downlink

43

33 b

0.5 c

0 d

18 e

50.5 f = b-c-d+e

Downlink

0 g

0 h

3 i

7 j

-11.2 k

-112.33 l=10*log(KTW)+j+k

0.5 m

1

6.59 n

0 o

-102.75 p=l+n+o-g+i

Path loss (dB)6 q

95%

6.2

3.13 r

144.12 s=f-p-q-rCell radius (km)

1.5

52

1970

Cost231-Hata

5.47

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Dense Urban In-BldgMorphology Dense Urban

Frequency (MHz) 1970

Propagation Model Cost231-Hata

Environment Indoor

UE Category CAT8

Own Cell Downlink Total Load 0.72

Adjacent Cell Downlink Total Load 0.72

NodeB Antenna Height (m) 28

UE Body Loss (dB) 1

NodeB Cable Loss (dB) 0.5

Gain of NodeB Antenna (dBi) 18

UE Antenna Height (m) 1.5

Area Coverage Probability 95%

Slow Fading Standard Deviation 11.7

Slow Fading Margin without SHO gain (dB) 14.15

NodeB max Power (dBm) 43

Penetration Loss Indoor (dB) 22

UE Noise Figure 7

Cell Edge Interference Ratio of other cells to Own cells 1.78

HSDPA Power Allocation / Cell Radius ==> HSDPA Cell Edge ThroughputHSDPA Power Allocation Ratio 0.52

Cell Coverage Radius (km) 0.31

HSDPA Mac Layer Cell Edge Throughput (kbit/s) 748

HSDPA Power Allocation Ratio HSDPA Mac Layer Cell Edge Throughput (5% 41.37

10% 129.62 15% 216.45 20% 299.33 25% 378.20 30% 453.37 35% 525.17 40% 593.95 45% 659.98 50% 723.51 52% 748.27

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Urban In-BldgMorphology Urban

Frequency (MHz) 1970

Propagation Model Cost231-Hata

Environment Indoor

UE Category CAT8

Own Cell Downlink Total Load 0.7

Adjacent Cell Downlink Total Load 0.7

NodeB Antenna Height (m) 28

UE Body Loss (dB) 1

NodeB Cable Loss (dB) 0.5

Gain of NodeB Antenna (dBi) 18

UE Antenna Height (m) 1.5

Area Coverage Probability 95%

Slow Fading Standard Deviation 9.4

Slow Fading Margin without SHO gain (dB) 10.71

NodeB max Power (dBm) 43

Penetration Loss Indoor (dB) 20

UE Noise Figure 7

Cell Edge Interference Ratio of other cells to Own cells 1.78

HSDPA Power Allocation / Cell Radius ==> HSDPA Cell Edge ThroughputHSDPA Power Allocation Ratio 0.5

Cell Coverage Radius (km) 0.47

HSDPA Mac Layer Cell Edge Throughput (kbit/s) 674

HSDPA Mac Layer Cell Edge Throughput (HSDPA Power Allocation Ratio HSDPA Mac Layer Cell Edge Throughput (5% 52.20

10% 140.31 15% 221.25 20% 296.47 25% 367.12 30% 434.01 35% 497.73 40% 558.69 45% 617.26 50% 673.69 52%

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Urban LightMorphology Urban

Frequency (MHz) 1970

Propagation Model Cost231-Hata

Environment Indoor

UE Category CAT8

Own Cell Downlink Total Load 0.7

Adjacent Cell Downlink Total Load 0.7

NodeB Antenna Height (m) 28

UE Body Loss (dB) 1

NodeB Cable Loss (dB) 0.5

Gain of NodeB Antenna (dBi) 18

UE Antenna Height (m) 1.5

Area Coverage Probability 95%

Slow Fading Standard Deviation 9.4

Slow Fading Margin without SHO gain (dB) 10.71

NodeB max Power (dBm) 43

Penetration Loss Indoor (dB) 20

UE Noise Figure 7

Cell Edge Interference Ratio of other cells to Own cells 1.78

HSDPA Power Allocation Ratio 0.5

Cell Coverage Radius (km) 0.47

HSDPA Mac Layer Cell Edge Throughput (kbit/s) 674

HSDPA Mac Layer Cell Edge Throughput (HSDPA Power Allocation Ratio HSDPA Mac Layer Cell Edge Throughput (5% 52.20

10% 140.31 15% 221.25 20% 296.47 25% 367.12 30% 434.01 35% 497.73 40% 558.69 45% 617.26 50% 673.69 52%

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Suburban In-BldgMorphology Suburban

Frequency (MHz) 1970

Propagation Model Cost231-Hata

Environment Indoor

UE Category CAT8

Own Cell Downlink Total Load 0.6

Adjacent Cell Downlink Total Load 0.6

NodeB Antenna Height (m) 38

UE Body Loss (dB) 1

NodeB Cable Loss (dB) 0.5

Gain of NodeB Antenna (dBi) 18

UE Antenna Height (m) 1.5

Area Coverage Probability 95%

Slow Fading Standard Deviation 7.2

Slow Fading Margin without SHO gain (dB) 7.52

NodeB max Power (dBm) 43

Penetration Loss Indoor (dB) 15

UE Noise Figure 7

Cell Edge Interference Ratio of other cells to Own cells 1.78

HSDPA Power Allocation Ratio 0.4

Cell Coverage Radius (km) 1.42

HSDPA Mac Layer Cell Edge Throughput (kbit/s) 644

HSDPA Mac Layer Cell Edge Throughput (HSDPA Power Allocation Ratio HSDPA Mac Layer Cell Edge Throughput (5% 62.77

10% 165.96 15% 259.56 20% 345.91 25% 426.58 30% 502.64 35% 574.83 40% 643.71 45%50%52%

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Rural In-BldgMorphology Rural

Frequency (MHz) 1970

Propagation Model Cost231-Hata

Environment Indoor

UE Category CAT8

Own Cell Downlink Total Load 0.5

Adjacent Cell Downlink Total Load 0.5

NodeB Antenna Height (m) 52

UE Body Loss (dB) 1

NodeB Cable Loss (dB) 0.5

Gain of NodeB Antenna (dBi) 18

UE Antenna Height (m) 1.5

Area Coverage Probability 95%

Slow Fading Standard Deviation 6.2

Slow Fading Margin without SHO gain (dB) 6.12

NodeB max Power (dBm) 43

Penetration Loss Indoor (dB) 10

UE Noise Figure 7

Cell Edge Interference Ratio of other cells to Own cells 1.78

HSDPA Power Allocation Ratio 0.3

Cell Coverage Radius (km) 4.16

HSDPA Mac Layer Cell Edge Throughput (kbit/s) 605

HSDPA Mac Layer Cell Edge Throughput (HSDPA Power Allocation Ratio HSDPA Mac Layer Cell Edge Throughput (5% 57.33

10% 177.64 15% 294.10 20% 403.93 25% 507.40 30% 605.19 35%40%45%50%52%

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Rural HighwayMorphology Highway

Frequency (MHz) 1970

Propagation Model Cost231-Hata

Environment Indoor

UE Category CAT8

Own Cell Downlink Total Load 0.5

Adjacent Cell Downlink Total Load 0.5

NodeB Antenna Height (m) 52

UE Body Loss (dB) 1

NodeB Cable Loss (dB) 0.5

Gain of NodeB Antenna (dBi) 18

UE Antenna Height (m) 1.5

Area Coverage Probability 95%

Slow Fading Standard Deviation 6.2

Slow Fading Margin without SHO gain (dB) 6.12

NodeB max Power (dBm) 43

Penetration Loss Indoor (dB) 6

UE Noise Figure 7

Cell Edge Interference Ratio of other cells to Own cells 1.78

HSDPA Power Allocation Ratio 0.3

Cell Coverage Radius (km) 5.47

HSDPA Mac Layer Cell Edge Throughput (kbit/s) 588

HSDPA Mac Layer Cell Edge Throughput (HSDPA Power Allocation Ratio HSDPA Mac Layer Cell Edge Throughput (kbit/s)5% 60.57

10% 178.59 15% 290.64 20% 395.68 25% 494.50 30% 587.90 35%40%45%50%52%

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HSDPA Mac Layer Cell Edge Throughput (kbit/s)

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Dense Urban In-BldgMorphology Dense Urban

Frequency (MHz) 1890

Propagation Model Cost231-Hata

TMA Used or Not No

Environment Indoor

UE Category CAT3

TTI(ms) of UE 10

UE Max Power (dBm) 24

UE Power Back Off (dB) 1.5

UE Body Loss (dB) 1

NodeB Cable Loss (dB) 0.5

NodeB Antenna Top Noise Figure (dB) 2.1

Gain of NodeB Antenna (dBi) 18

Uplink Target Load 0.5

Fast Fading Margin with SHO gain(dB) 0.2

Buliding Penetration Loss(dB) 22

Area Coverage Probability 95%

Slow Fading Standard Deviation 11.7

Slow Fading Margin with SHO gain (dB) 8.26

UE Antenna Height (m) 1.5

NodeB Antenna Height(m) 28

Uplink Average Adjancent Cell Interference 0.65

HSUPA Cell Radius ==> HSUPA Cell Edge ThroughputCell Coverage Radius (km) 0.31

HSUPA Cell Edge Throughput at MAC Layer(kbps) 298

Cell Coverage Radius (km) HSUPA Mac Layer Cell Edge Throughput (0.1 1039.36 0.2 1039.36 0.3 297.74 0.4 104.79 0.5 29.67

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Urban In-BldgMorphology Urban

Frequency (MHz) 1890

Propagation Model Cost231-Hata

TMA Used or Not No

Environment Indoor

UE Category CAT3

TTI(ms) of UE 10

UE Max Power (dBm) 24

UE Power Back Off (dB) 1.5

UE Body Loss (dB) 1

NodeB Cable Loss (dB) 0.5

NodeB Antenna Top Noise Figure (dB) 2.1

Gain of NodeB Antenna (dBi) 18

Uplink Target Load 0.5

Fast Fading Margin with SHO gain(dB) 0

Buliding Penetration Loss(dB) 20

Area Coverage Probability 95%

Slow Fading Standard Deviation 9.4

Slow Fading Margin with SHO gain (dB) 6.04

UE Antenna Height (m) 1.5

NodeB Antenna Height(m) 28

Uplink Average Adjancent Cell Interference 0.65

Cell Coverage Radius (km) 0.47

HSUPA Cell Edge Throughput at MAC Layer(kbps) 330

HSUPA Mac Layer Cell Edge Throughput (Cell Coverage Radius (km) HSUPA Mac Layer Cell Edge Throughput (0.1 952.56 0.2 952.56 0.3 952.56 0.4 505.55

0.45 329.99 0.5 249.64 0.6 132.75 0.7 62.40 0.8 20.57

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Urban LightMorphology Urban

Frequency (MHz) 1890

Propagation Model Cost231-Hata

TMA Used or Not No

Environment Indoor

UE Category CAT3

TTI(ms) of UE 10

UE Max Power (dBm) 24

UE Power Back Off (dB) 1.5

UE Body Loss (dB) 1

NodeB Cable Loss (dB) 0.5

NodeB Antenna Top Noise Figure (dB) 2.1

Gain of NodeB Antenna (dBi) 18

Uplink Target Load 0.5

Fast Fading Margin with SHO gain(dB) 0

Buliding Penetration Loss(dB) 20

Area Coverage Probability 95%

Slow Fading Standard Deviation 9.4

Slow Fading Margin with SHO gain (dB) 6.04

UE Antenna Height (m) 1.5

NodeB Antenna Height(m) 28

Uplink Average Adjancent Cell Interference 0.65

Cell Coverage Radius (km) 0.47

HSUPA Cell Edge Throughput at MAC Layer(kbps) 330

HSUPA Mac Layer Cell Edge Throughput (Cell Coverage Radius (km) HSUPA Mac Layer Cell Edge Throughput (0.1 952.56 0.2 952.56 0.3 952.56 0.4 505.55

0.45 329.99 0.5 249.64 0.6 132.75 0.7 62.40 0.8 20.57

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Suburban In-BldgMorphology Suburban

Frequency (MHz) 1890

Propagation Model Cost231-Hata

TMA Used or Not No

Environment Indoor

UE Category CAT3

TTI(ms) of UE 10

UE Max Power (dBm) 24

UE Power Back Off (dB) 1.5

UE Body Loss (dB) 1

NodeB Cable Loss (dB) 0.5

NodeB Antenna Top Noise Figure (dB) 2.1

Gain of NodeB Antenna (dBi) 18

Uplink Target Load 0.5

Fast Fading Margin with SHO gain(dB) 0

Buliding Penetration Loss(dB) 15

Area Coverage Probability 95%

Slow Fading Standard Deviation 7.2

Slow Fading Margin with SHO gain (dB) 4.01

UE Antenna Height (m) 1.5

NodeB Antenna Height(m) 38

Uplink Average Adjancent Cell Interference 0.65

Cell Coverage Radius (km) 1.42

HSUPA Cell Edge Throughput at MAC Layer(kbps) 302

HSUPA Mac Layer Cell Edge Throughput (Cell Coverage Radius (km) HSUPA Mac Layer Cell Edge Throughput (0.1 952.56 0.3 952.56 0.5 952.56 0.7 952.56 0.9 952.56 1.1 653.52 1.3 363.70 1.4 302.20 1.5 252.07 1.7 173.79 1.9 104.24 2.1 66.17 2.3 38.37

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Rural In-BldgMorphology Rural

Frequency (MHz) 1890

Propagation Model Cost231-Hata

TMA Used or Not No

Environment Indoor

UE Category CAT3

TTI(ms) of UE 10

UE Max Power (dBm) 24

UE Power Back Off (dB) 1.5

UE Body Loss (dB) 1

NodeB Cable Loss (dB) 0.5

NodeB Antenna Top Noise Figure (dB) 2.1

Gain of NodeB Antenna (dBi) 18

Uplink Target Load 0.5

Fast Fading Margin with SHO gain(dB) 0

Buliding Penetration Loss(dB) 10

Area Coverage Probability 95%

Slow Fading Standard Deviation 6.2

Slow Fading Margin with SHO gain (dB) 3.13

UE Antenna Height (m) 1.5

NodeB Antenna Height(m) 52

Uplink Average Adjancent Cell Interference 0.65

Cell Coverage Radius (km) 4.16

HSUPA Cell Edge Throughput at MAC Layer(kbps) 284

HSUPA Mac Layer Cell Edge Throughput (Cell Coverage Radius (km) HSUPA Mac Layer Cell Edge Throughput (0.5 1017.14

1 1017.14 1.5 1017.14

2 1017.14 2.5 1017.14

3 671.76 3.5 393.26

4 283.59 4.5 213.38

5 152.04 5.5 96.56

6 68.23 6.5 45.44

7 24.34

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Rural HighwayMorphology Highway

Frequency (MHz) 1890

Propagation Model Cost231-Hata

TMA Used or Not No

Environment Indoor

UE Category CAT3

TTI(ms) of UE 10

UE Max Power (dBm) 24

UE Power Back Off (dB) 1.5

UE Body Loss (dB) 1

NodeB Cable Loss (dB) 0.5

NodeB Antenna Top Noise Figure (dB) 2.1

Gain of NodeB Antenna (dBi) 18

Uplink Target Load 0.5

Fast Fading Margin with SHO gain(dB) 0

Buliding Penetration Loss(dB) 6

Area Coverage Probability 95%

Slow Fading Standard Deviation 6.2

Slow Fading Margin with SHO gain (dB) 3.13

UE Antenna Height (m) 1.5

NodeB Antenna Height(m) 52

Uplink Average Adjancent Cell Interference 0.65

Cell Coverage Radius (km) 5.47

HSUPA Cell Edge Throughput at MAC Layer(kbps) 276

HSUPA Mac Layer Cell Edge Throughput (Cell Coverage Radius (km) HSUPA Mac Layer Cell Edge Throughput (kbit/s)0.5 1031.94

1 1031.94 1.5 1031.94

2 1031.94 2.5 1031.94

3 1031.94 3.5 1031.81

4 672.60 4.5 466.91

5 328.60 5.4 275.54 5.5 263.70

6 211.90 6.5 164.24

7 120.12

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7.5 84.07 8 63.94

8.5 45.04 9 27.21

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HSUPA Mac Layer Cell Edge Throughput (kbit/s)

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Dense Urban In-Bldg

Cell radius (km) 0.43 0.31

Cell Coverage Radius (km) 0.31

Outdoor RSCP Threshold(dBm) -83.76

Ec/Io (dB) -12.00

748

298

pilot pollution 5.00%

UE transmission power (dBm) 21.00

Cell radius (km) Based on TCH

Cell radius (km) Based on Ec/Io

HSDPA Mac Layer Cell Edge Throughput (kbit/s)

HSUPA Cell Edge Throughput at MAC Layer(kbps)

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Urban In-Bldg

Cell radius (km) 0.72

Cell Coverage Radius (km) 0.47

Outdoor RSCP Threshold(dBm) -84.89

Ec/Io (dB) -11.50

674

330

pilot pollution 5.00%

UE transmission power (dBm) 21.00

Cell radius (km) Based on TCH

HSDPA Mac Layer Cell Edge Throughput (kbit/s)

HSUPA Cell Edge Throughput at MAC Layer(kbps)

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Urban In-Bldg Urban Light

0.47 Cell radius (km) 0.72

0.47 Cell Coverage Radius (km) 0.47

-84.89 Outdoor RSCP Threshold(dBm) -84.89

-11.50 Ec/Io (dB) -11.50

674 674

330 330

5.00% pilot pollution 5.00%

21.00 UE transmission power (dBm) 21.00

Cell radius (km) Based on Ec/Io

Cell radius (km) Based on TCH

HSDPA Mac Layer Cell Edge Throughput (kbit/s)

HSUPA Cell Edge Throughput at MAC Layer(kbps)

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Urban Light Suburban In-Bldg

0.47 Cell radius (km) 2.19

0.47 Cell Coverage Radius (km) 1.42

-84.89 Outdoor RSCP Threshold(dBm) -89.96

-11.50 Ec/Io (dB) -11.20

674 644

330 302

5.00% pilot pollution 5.00%

21.00 UE transmission power (dBm) 21.00

Cell radius (km) Based on Ec/Io

Cell radius (km) Based on TCH

HSDPA Mac Layer Cell Edge Throughput (kbit/s)

HSUPA Cell Edge Throughput at MAC Layer(kbps)

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Suburban In-Bldg Rural In-Bldg

1.42 Cell radius (km) 6.67

1.42 Cell Coverage Radius (km) 4.16

-89.96 Outdoor RSCP Threshold(dBm) -95.75

-11.20 Ec/Io (dB) -11.20

644 605

302 284

5.00% pilot pollution 5.00%

21.00 UE transmission power (dBm) 21.00

Cell radius (km) Based on Ec/Io

Cell radius (km) Based on TCH

HSDPA Mac Layer Cell Edge Throughput (kbit/s)

HSUPA Cell Edge Throughput at MAC Layer(kbps)

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Rural In-Bldg Rural Highway

4.16 Cell radius (km) 8.36

4.16 Cell Coverage Radius (km) 5.47

-95.75 Outdoor RSCP Threshold(dBm) -99.75

-11.20 Ec/Io (dB) -11.20

605 588

284 276

5.00% pilot pollution 5.00%

21.00 UE transmission power (dBm) 21.00

Cell radius (km) Based on Ec/Io

Cell radius (km) Based on TCH

HSDPA Mac Layer Cell Edge Throughput (kbit/s)

HSUPA Cell Edge Throughput at MAC Layer(kbps)

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Rural Highway

5.47

5.47

-99.75

-11.20

588

276

5.00%

21.00

Cell radius (km) Based on Ec/Io


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