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Area type Area km^2
Dense city 4
City 16
Suburb 47
Artery
Rural area
Coverage target CS12.2K CS64K PS64K PS144K PS384K
Dense city 95% 95% 95%
City 95% 95% 95%
Suburb 90% 90% 90%
Artery
Rural area
Note: demarcate each scene with users together.
Requirements for area coverage probability
Area of coverage target areas
Note: 1. Determine the coverage target service type for
different services in different areas(whether requiring continuous
coverage and coverage probability requirement. The above
servicetypes should be adjusted based on field situations). 2.
Whether requiring indoor coverage or not. 3.For coverage
probability value, refer to solutions.
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Scene Users
Total users 135000
Dense city 25000
City 95000
Suburbs 15000
Rural areas
Artery
Dense city City Suburb Rural area Artery
Low-end user ratio 40% 60% 70% 89% 89%
Mid-end user ratio 35% 25% 20% 10% 10%
High-end user ratio 25% 15% 10% 1% 1%
Total 100% 100% 100% 100% 100%
Dense city City Suburb Rural area ArteryLow-end user ratio 30%
60% 70% 89% 89%Mid-end user ratio 50% 25% 25% 10% 10%High-end user
ratio 20% 15% 5% 1% 1%
Total 100% 100% 100% 100% 100%
Characteristics of user distribution
Characteristics of user distribution
Number of users in coverage target
Note: consider values for different years.
Note: consider different values for differentyears. The data
above can be adjusted
based on field situations.
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1 12.2K Voice Service type Bearer rate ( BLER (option
2 Video phone 12.2K Voice CS12.2K 1%
3 PS64K Video phone CS64K 0.10%4 PS128K PS64K PS64K 10%5 PS384K
PS128K PS128K 10%
Note: the above values just provide a reference. Field PS384K
PS384K 10%
Note: the above values just provide a ref
Dense city City Suburb
12.2K speech 0.02 0.02 0.02
Video phone 0.003 0.002 0.001
Dense cityDL
Dense cityUL
City DL City UL Suburb DL Suburb UL
PS64K 118 155 111 143 107 138
PS128K 306 0 298 0 293 0
PS384K 194 0 164 0 149 0
CS domain service volume
Service type consideredduring planning
PS domain service bearercharacteristics
Service type Average throughput per user (kbit)
PS domain service volume
Service typeTraffic per user (Erl)
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al)
rence. Field engineers can adjust them based on actual
situations.
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Scene K1 K2 K3 K4 K5 K6 K7 Clutter OffsetDensecity 157.27 68.6
-2.93 0 -13.82 -6.55 0 2City 143.43 52.51 -2.93 0 -13.82 -6.55 0
1Suburb 141.5 55.51 -2.93 0 -13.8 -6.55 0 0
ArteryRuralarea
Propagation model in each scene
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Scene Requirements for blocking rate SceneUplinkload
Downlinkload
Dense city 2% Dense city 50% 75%City 2% City 50% 75%
Suburb 5% Suburb 40% 75%
Rural area 10% Rural area 30% 75%
Artery 5% Artery 15% 75%
Note: the above values just provide a reference. Field engineers
can adjust them based on
Requirements for serviceGos in differentenvironment
Network design load
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actual situations.
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Value
Dense urban 19dB
Urban 13dB
Suburban 8 dB
Rural 8 dB
Dense urban 10dB
Urban 8 dB
Suburban 6 dB
Rural 6 dB
Dense urban TU3
Urban TU3
Suburban TU50
Rural RA120
Used in suburbs and rural areas
Yes
Equipment-related par
Para
Parameters related to radio propagation
NodeB max. transmit po
Ue max. transmit power
Body loss
Channel type
Parameter
Penetration loss
Shadow fadingstandard deviation
Background noisemargin
Serving frequency
Other parameters
Note: Standard deviation value is the suggestedvalue outdoors.
For the value indoors, refer to thevalue of Scenarios in WCDMA FDD
Link Budget .
Consider vehicle body loss in the ca
Use tower amplifier or not
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Value
43 dBm
Voice 21 dBm
Data 24 dBm
Voice 3 dB
Data 0 dB
Uplink -200
Downlink -200
Uplink 1950
Downlink 2140
meters
eter
wer
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1 List of existing resources (such as latitude/longitude and
height of the equipment room an2.Information list (including level
of importance) of towns and travel sites to be covered
Throughput (kbit)
Dense city DL UL DL UL DL UL
PS64K 118 155 111 143 107 138
PS128K 306 0 298 0 293 0
PS384K 194 0 164 0 149 0
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d tower)
