130299897 A0002 3g Interfaces RNC Dimensioning
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Transcript of 130299897 A0002 3g Interfaces RNC Dimensioning
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RNC & 3G InterfacesDimensioningRamesh BabuNokia Networks3G&IP Network Planning - APAC
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AGENDA
Dimensioning of 3G Interfaces & RNC
Common Issues
Example Dimensioning
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3G Network ArchitectureGr GdCG
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3G Interfaces in RAN ATM is used as a transport solution in Radio Access Network (3GPP Rel.99) ATM is standardised as transport bearer in Iub, Iur and Iu ATM can be over PDH or SDH links
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Required Inputs for Dimensioning Radio Network Planning Output: Number of Node Bs Node B Configuration Total number of Subscribers in each area RF Planning assumptions (Blocking %, Soft Handover %,..)
Rollout Plan Geographical Area Distribution or Regions Different Type of Traffic Usage Real-time traffic (Voice and Circuit Switched Data) Non real-time traffic (All kind of packet data) Number of active PDP contexts per subscriber Simultaneous Data Subscribers during busy hour Equipment Location
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RAN & Core dimensioning Steps
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Interfaces 3G PP Standards
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Different OH for Different Traffic Classes Iub/Iur/Iu-CS Interface OverheadEach different service require different overhead
IU-PS OH chart
1.12
0.77
0.9
0.66
0.48
0.59
0.45
0.55
0.43
0.33
0.42
0.33
0.41
0.33
0.4
0.33
0.27
0.33
0.27
0.33
0.28
0.23
0.28
0.24
0.28
0.24
0.29
0.25
0.21
0.25
0.22
0.26
0.22
0.19
0.23
0.2
0.23
0.2
0.24
0.21
0.18
0.21
0.19
0.22
0.19
0.17
0.2
0.18
0.2
0.18
0.21
0.19
0.17
0.19
0.17
0.2
0.18
0.16
0.18
0.16
0.19
0.17
0.19
0.17
0.16
0.18
0.16
0.18
0.17
0.15
0.17
protocol overhead
packet size
relative overhead
Iu-PS overhead table
Iu-PS OH
default Classical IP MTU9180octets
ATM cell
ATM cell size53octets
cell payload48octets
Cell header5octets
Ethernet header18octets
LLC header4octets
Use for IPT139 bytes
octetsUse for data550 bytes
payload550
GTPv112
UDP8
IPv420590
CLIP OH8
AAL5 payload598
AAL5 trailer8
606
AAL5 padding18
#ATM cells13
ATM cell header5
Total payload689
Iu overhead0.26
Gn overhead0.0727272727
payloadpaddingtotal payloadoverhead
100156362121.12
120176162120.77
140196442650.9
160216242650.66
18023642650.48
200256323180.59
220276123180.45
240296403710.55
260316203710.43
28033603710.33
300356284240.42
32037684240.33
340396364770.41
360416164770.33
380436445300.4
400456245300.33
42047645300.27
440496325830.33
460516125830.27
480536406360.33
500556206360.28
52057606360.23
540596286890.28
56061686890.24
580636367420.28
600656167420.24
620676447950.29
640696247950.25
66071647950.21
680736328480.25
700756128480.22
720776409010.26
740796209010.22
76081609010.19
780836289540.23
80085689540.2
8208763610070.23
8408961610070.2
8609164410600.24
8809362410600.21
900956410600.18
9209763211130.21
9409961211130.19
96010164011660.22
98010362011660.19
10001056011660.17
102010762812190.2
10401096812190.18
106011163612720.2
108011361612720.18
110011564413250.21
112011762413250.19
11401196413250.17
116012163213780.19
118012361213780.17
120012564014310.2
122012762014310.18
12401296014310.16
126013162814840.18
12801336814840.16
130013563615370.19
132013761615370.17
134013964415900.19
136014162415900.17
13801436415900.16
140014563216430.18
142014761216430.16
144014964016960.18
146015162016960.17
14801536016960.15
150015562817490.17
TrCH_Voice
Voice servicesActivityService bit rateL1 bit rateTTIData/frameFP OHTotal /frameBit rate incl. FPin percentageAAL2 PDUAAL2 OHBits to ATMBit rate below AAL2Bit rate below ATMTOTAL
kbpskbpsmsbitoctetbitkbps%#octetbitskbps12.76%OH
RT12.2 (AMR) ULactive12.212.220244731215.6271333616.818.973.00%
silent002007562.813804.04.5
RT12.2 (AMR) DLactive12.212.220244529614.81332016.018.047.88%
silent002000000300.00.0
RT10.2 (AMR) ULactive10.210.220204727213.61329614.816.7107.83%
silent002007562.813804.04.5
RT10.2 (AMR) DLactive10.210.220204525612.81328014.015.854.77%
silent002000000300.00.0
RT7.95 (AMR) ULactive7.957.9520159621610.81324012.013.5
silent002006482.413723.64.1
RT7.95 (AMR) DLactive7.957.95201594200101322411.212.6
silent002000000300.00.0
RT7.4 (AMR) ULactive7.47.4201486200101322411.212.6
silent002006482.413723.64.1
RT7.4 (AMR) DLactive7.47.42014841849.21320810.411.7
silent002000000300.00.0
RT76.7 (AMR) ULactive6.76.72013461849.21320810.411.7
silent002006482.413723.64.1
RT6.7 (AMR) DLactive6.76.72013441688.4131929.610.8
silent002000000300.00.0
RT5.9 (AMR) ULactive5.95.92011861688.4131929.610.8
silent002006482.413723.64.1
RT5.9 (AMR) DLactive5.95.92011841527.6131768.89.9
silent002000000300.00.0
RT5.15 (AMR) ULactive5.155.152010361608131849.210.4
silent002006482.413723.64.1
RT5.15 (AMR) DLactive5.155.152010341447.2131688.49.5
silent002000000300.00.0
RT4.75 (AMR) ULactive4.754.75209561447.2131688.49.5
silent002006482.413723.64.1
RT4.75 (AMR) DLactive4.754.75209541286.4131527.68.6
silent002000000300.00.0
RT ServicesActivityservice bit rateL1 bit rateFrame periodData/frameFP OHTotal /frameBit rate incl. FPAAL2 PDUAAL2 OHBits to ATMBit rate below AAL2Bit rate below ATM
kbpskbpsmsbitoctetbitkbps#octetbitskbps12.76%
RT14.4active14.414.440576561615.42366416.618.7
RT28.8active28.828.84011525119229.843128832.236.3
RT32active3232401280513203343141635.439.9
RT33.6active33.633.64013445138434.643148037.041.7
RT56.7active56.756.74022685230857.773247661.969.8
RT64active646440256052600651.583279269.878.723%
NRT Servicesservice bit rateL1 bit rateFrame periodData/frameFP OHTotal /frameBit rate incl. FPAAL2 PDUAAL2 OHBits to ATMBit rate below AAL2Bit rate below ATM
kbpskbpsmsbitoctetbitkbps#octetbitskbps12.76%
NRT8UL/DL89.61096513613.61316016.018.0126%
NRT16UL/DL1617.610176521621.6541324024.027.169%
NRT32UL/DL3233.610336537637.62342442.447.849%
NRT646467.210672571271.2112376076.085.734%
NRT128128134.410134451384138.48431480148.0166.9
NRT256256268.810268852728272.8832920292.0329.3
NRT256320336103360534003401033640364.0410.4
NRT384384403.210403254072407.261234360436.0491.628%
0
Signallingservice bit rateL1 bit rateFrame periodData/frameFP OHTotal /frameBit rate incl. FPAAL2 PDUAAL2 OHBits to ATMBit rate below AAL2Bit rate below ATM0
kbpskbpsmsbitoctetbitkbps#octetbitskbps12.76%0
0
Standalone signalingActive13.613.640544558414.62363215.817.831.0005882353
Signaling DCH (associated with u-plane)Active3.43.44013651764.4132005.05.665.8235294118
0
TrCH_RT_Data
Activityservice bit rateL1 bit rateFrame periodData/frameFP OHTotal /frameAAL2 PDUAAL2 OHBits to ATMBit rate below AAL2Bit rate below ATM
kbpskbpsmsbitoctetbit#octetbitskbps12.76%
RT14.4active14.414.44057656162366416.618.729%
RT28.8active28.828.84011525119243128832.236.3
RT32active32324012805132043141635.439.9
RT33.6active33.633.64013445138443148037.041.7
RT56.7active56.756.74022685230873247661.969.8
RT64active64644025605260083279269.878.722.98%
TrCH_NRT_Data
service bit rateL1 bit rateFrame periodData/frameFP OHTotal /frameAAL2 PDUAAL2 OHBits to ATMBit rate below AAL2Bit rate below ATM
kbpskbpsmsbitoctetbit#octetbitskbps12.76%
NRT8UL/DL89.6109651361316016.018.0
NRT16UL/DL1617.61017652161324024.027.1
NRT32UL/DL3233.61033653762342442.447.8
NRT64UL/DL6467.21067257122376076.085.733.90%
NRT128DL128134.410134451384431480148.0166.930.38%
NRT256DL256268.810268852728832920292.0329.328.62%
NRT256DL320336103360534001033640364.0410.428.26%
NRT384DL384403.2104032540721234360436.0491.628.03%
TrCH_Signaling
service bit rateL1 bit rateFrame periodData/frameFP OHTotal /frameAAL2 PDUAAL2 OHBits to ATMBit rate below AAL2Bit rate below ATM
kbpskbpsmsbitoctetbit#octetbitskbps12.76%
Standalone signalingActive13.613.64054455842363215.817.8
Signaling DCH (associated with u-plane)Active3.43.4401365176132005.05.6
Signaling channel is only active when there is messages to send
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ATM Overhead in IubFor Voice Activity Factor of 65%
((18.9 x 65%) + (4.5 x 35%)) ((12.2 x 65%) + (0 x 35%))-------------------------------------------------------------------------- ((12.2 x 65%) + (0 x 35%))
= 73.7 %
For Voice Activity Factor of 50%
((18.9 x 50%) + (4.5 x 50%)) ((12.2 x 50%) + (0 x 50%))-------------------------------------------------------------------------- ((12.2 x 50%) + (0 x 50%))
= 92 %
Real Time Voice @ 12.2 kbps
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ATM Overhead in Iub
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Iub Dimensioning Iub is the interface between Base Station and Radio Network Controller Iub Traffic is the total of both Circuit Switched (Voice & data) and Packet Switched data
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Iub Throughput Calculation Circuit Switched Traffic (RT) Voice AMR Data Rate - 12.2 Kbps 12.2 Kbps Soft Handover - 40% 17.08 Kbps ATM Overhead - 73%29.54 KbpsDTX - 50%14.77 KbpsTotal Traffic =14.77 X Physical Channels required Packet Switched Traffic (NRT) Data Bearer 128 Kbps X Kbps Soft Handover - 40% X Kbps L1 Data Rate 26.5%ATM Overhead - 25%X KbpsX KbpsTotal Traffic =No of Subscribers X Traffic
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Iub Throughput Calculation Circuit Switched Traffic (CS Voice and CS Data) = Packet Switched Traffic =
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Iur Dimensioning Iur interface is the traffic between two different RNCs. Eg for Soft Handover
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Soft Handover
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Soft Handover Soft Handover is assumed to be 40 % Assumption
35% of the Mobiles are connected to two or more Base Stations at the same time.
30% of the Mobiles are in two way SHOs 5% of the Mobiles are in three way SHOs
Consequently on average every Call occupies
65% x 1 + 30% x 2 + 5% x 3 = 1.4 Physical Channels
If One RNC handles 100 Voice Calls, it needs 140 Physical Channels (100 x 1.4)
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Iur Dimensioning Iur traffic mainly depends on the pattern of RNC to RNC handover traffic Parameters involved - Velocity of the Mobile, RNC area etc.
Each RNC will be connected to the adjacent RNC directly. One RNC could be connected to many different RNCs.
Studies inside Nokia shows that Iur is about 7 8 % of Iub (user plane traffic). For dimensioning Nokia adopts 7.5 %.
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Example RNC Iur Interface Connection
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Example RNC Iur Interface ConnectionReal Case Example
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Iu Interface Dimensioning (1/3) Iu interface is split in to two parts
Between RNC and MGW for Circuit Switched Traffic - Payload carried over AAL2 Between RNC and SGSN for Packet Switched Traffic - Payload carried over AAL5
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Protocol Stack (Iu CS / Iu PS)
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Iu-PS Calculation Example
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Iu-PS Overhead - Example (1/3)
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40Iu-PS Overhead - Example (2/3)ATM Cells
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Iu-PS Overhead - Example (3/3)Increase from Original 128 bytes to 212 bytes Percentage of Increase - (212 128 / 128) * 100 65 % of Overhead for a IP Packet size of 128 Bytes
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Iu-PS relative OH = (Packet size)
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Iu Throughput Calculation Circuit Switched Traffic to MSC Voice AMR Data Rate - 12.2 Kbps 12.2 Kbps ATM Overhead - 73%23.54 KbpsDTX - 50%11.89 KbpsTotal Traffic =11.89 X Physical Channels required Packet Switched Traffic to SGSN Data Bearer 128 Kbps X Kbps IP, ATM Overhead - 65% X Kbps Signalling OH in SGSN - 1%X KbpsTotal Traffic =No of Subscribers X Traffic Signalling OH in MSC - 1%23.78 Kbps
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Radio Network Controller (RNC)Based on Nokia ATM Platform
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3G Network Architecture
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RNC Role Mobility ManagementConnection and Radio link ManagementCiphering and Integrity CheckingATM and IP traffic managementIntegrated Transmission Interfaces
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Radio Network Controller (RNC)
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Radio Network Controller (RNC)
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RNC Area Planning
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RNC Dimensioning
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RNC Dimensioning Principle Summary
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RNC DimensioningDimensioning Crietria Total throughput against the maximum throughput capacity of RNC
Total Carriers against the maximum carrier capacity of RNC
Total Base Stations against the maximum Node B capacity of RNC
Fill rate of 90%
Final No of RNC - Maximum value attained by the above three Criteria
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Common Issues
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Throughput Capacity of RNCRNC throughput capacity expressed only in one direction and also represents only the Capacity of DMCU. O & M signalling is handled separately in OMU.
Nokia RNC could support 196 Mbps on UL and also 196 Mbps on DL.Other Vendors mention the RNC throughput as 392 Mbps (UL + DL)
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Traffic split between Voice & DataThroughput capacity of Nokia RNC is 196 Mbps.Combination of any percentage of Voice and Data
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RNC upgrade from 196 400 MbpsNo Upgrade path and cost defined yet.400 Mbps RNC is provided as new boxes for the additional traffic for Later phases.
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Voice Channels - 16 kbps in RNCEven lower bitrates requires as much processing capacity (user and control plane)Within RNC as a 16kbps channels.
In the Transmission it is taken as original bit rates.
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Iur carried over Iu InterfaceRNC linked directly for Iur connectionIur Traffic is carried through Iu over to core and then to RNC
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Interface Ports on RNCTotal Traffic (Iub + Iu + Iur) must be considered to calculate the interface Requirement in RNC.
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Interface Ports on RNCNo of E1 Interface required at RNC = 260 Available E1 Interface at RNC = 192Introduce Multiplexing Equipment to Groom the Traffic
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RNC Dimensioning CriteriaNokias Dimensioning criteria for RNC
Throughput Carriers Node BSome Operators specify RNC to be dimensioned based on - Subscribers Number of Soft Handovers Cell broadcast message UE Positioning Request Number of Hard Handovers Iub, Iu, Iur and O&M Traffic
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ATM Overhead in RNCATM OH added at NIUATM OH stripped off at the Interface unit of RNCATM Overhead is considered only on the TransmissionThe ATM OH is stripped off at the NIU of RNC
Hence traffic to RNC will not include ATM overhead.
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Dimensioning Exercise
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Objective
Dimension the Interfaces Iub, Iu & Iur
Determine the number of RNCs required
Understand the output format from an IP PlannerCase Study3G RAN Network Dimensioning for an Operator in Singapore
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Case Study Singapore classified in to four different regions Dense Urban Urban Suburban Rural Indoor considered to be with in Dense Urban
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Inputs from Operator Subscriber Information Services to be offered Circuit Switched Voice 12.2 kbps CS Data 14.4 kbps CS Data 64 kbps
Packet Switched PS Data 16 kbps PS Data 64 kbps PS Data 128 kbps PS Data 384 kbps
Front page
Annex - 3G Radio Network Dimensioning
Scope :
Nokia shall supply all relevant information for the dimensioning of the 3G Radio network equipment
Nokia shall link worksheets internally and externally where appropriate
Sources to be considered:
Nokia should hyperlink here any other sources used
Nokia shall :
Display all internal and external links to this spreadsheet for the dimensioning of each element
Include numbers of all network equipment needed for all the phases considered
Detail all Hardware and Software upgrades for all network equipment during the overall time frame considered
Include all elements required for interworking with the Legacy Network.
Detail in this spreadsheet the implementation and limiting factors for each sub-element should nodes be combined
Include all associated security, routing, encryption and compression protocols/algorithms
Detail assumptions for resilience and redundancy
Include the number and classification of sites needed as per Annex-Generic Radio/Core Site Performance Specification.
Include Operation & Maintenance units (OMC-R) in this dimensioning
Include numbers of all 3G Radio Network Equipment needed for the StarHub network for all the phases considered
Definitions
Node B
Node B dimensioning
Nokia shall display their dimensioning rules for each network element
Nokia shall fill in the summary cells as these are linked to the Dimensioning Output sheet and BoQ
Nokia shall dimension equipment not listed in the worksheet "Other Equipment"
Nokia shall link all values they are using (inside and outside this spreadsheet)
Nokia shall insert additional rows to include more detail
Phase 0Phase 1Phase 2Phase 3Phase 4
Node BNode B
SummaryNew Indoor Sites Incremental10025010000
New Indoor Sites Cumulative10035045000
Indoor Site Upgrades Incremental0035000
Indoor Site Upgrades Cumulative0035000
New Outdoor Sites Incremental57846250400
New Outdoor Sites Cumulative5781040154400
Outdoor Site Upgrades Incremental044781900
Outdoor Site Upgrades Cumulative0447126600
The table below indicates with yellow the site configurations used in the proposed radio network plan.
The table also indicates the number of channels per configuration and per expansion configurations.
Furthermore, the number of carriers per configuration is also indicated in the table.
This list doesn't list all possible configurations supported. It was not seen as feasible to include the whole list, as there's more than 200 configurations available.
The summary table above has been slightly modified to better represent the configuration options offered, including site upgrade options.
Phase 0Phase 1Phase 2
CBD
UltraSite Optima Compact ROC, 1+1+1, 32 HW-chs, Release 1145
UltraSite Optima Compact ROC, 1+1+1, 64 HW-chs, Release 270
Upgrades
Upgrade ROC to CEC ( 2 pcs WPA-units)215
1+1+1, 32 to 64 HW-chs (1 pc 32-ch WSP-unit)145
1+1+1, 64 to 192 HW-chs (2 pcs 64-ch WSP-units)215
HDB
UltraSite Optima Compact ROC, 1+1+1, 32 HW-chs, Release 1302
UltraSite Optima Compact ROC, 1+1+1, 64 HW-chs, Release 2302
UltraSite Optima Compact ROC, 1+1+1, 96 HW-chs, Release 2296
Upgrades
1+1+1, 32 to 64 HW-chs (1 pc 32-ch WSP-unit)302
1+1+1, 64 to 96 HW-chs (1 pc 32-ch WSP-unit)6041115
SubUrban
UltraSite Optima Compact ROC, 1+1+1, 32 HW-chs, Release 113190208
New Outdoor Sites5784625041544ok
Upgraded Outdoor Sites447819
Indoor/MRT
MetroSite Indoor/Outdoor, 1-omni, 32 HW-chs, Release 138195
MetroSite Indoor/Outdoor, 1-omni, 96 HW-chs, Release 268
UltraSite WCDMA, 1+1 (subrack), 32 HW-chs, Release 1 (triple-mode, cabinet included)156
UltraSite WCDMA, 1+1 (subrack), 96 HW-chs, Release 2 (triple-mode, cabinet included)5
UltraSite WCDMA, 1+1+1 (subrack), 32 HW-chs, Release 1 (triple-mode, cabinet included)4749
UltraSite WCDMA, 1+1+1 (subrack), 96 HW-chs, Release 2 (triple-mode, cabinet included)27
Upgrades
Metro 1-omni 32 HW-chs to 96 HW-chs (1 pc 64-ch WSP-unit)233
1+1 (subrack), 32 HW-chs to 96 HW-chs (1 pc 64-ch WSP-unit)21
1+1+1 (subrack), 32 HW-chs to 96 HW-chs (1 pc 64-ch WSP-unit)96
New Indoor Sites100250100450ok
Upgraded Indoor Sites350
FeedersFeeders
SummaryIncremental
Cumulative
The Feeders are priced as part of the Antenna Solutions listed under "Antennas".
AntennasAntennas
SummaryIncremental902863663
Cumulative9021765242800
The Antenna Solutions below includes both Antennas and Feeders.
For all 1-mode Node B's a new UltraSite Support has been offered. The type of UltraSite Support is according to the type (i.e power consumption) of the Node B.
- Nokia has evaluated the average length of feeders in StarHub's GSM network. 30% of feeders are 41 m and longer; for these 1 5/8" feeder has been offered
Average length is about 62 m. 70% of feeders are 40 m and shorter; for these 7/8" feeder has been offered. Average length is about 22m
MHA = Mast Head Amplifier
Phase 0Phase 1Phase 2
Antenna system with MHA, no SRC (3 sectors, 7/8")9263146
Antenna 1710-2170 X-pol 65 deg 18.5 dBi 2 deg T (including tilting kit and antenna clamp)3
Jumper cable 1,5 m 1/2" 7/16 m/f12
Feeder cable RF 7/8"-50132
Connectors 7/16 male, RF 7/8"12
Grounding Kit 7/8"12
Feeder clamp 2 x 7/8" cable (2 cables)66
Mast Head Amplifier, Bias-Tee, Jumper Cables for MHA6
Antenna system with MHA, no SRC (3 sectors, 1 5/8")392762429ok
Antenna 1710-2170 X-pol 65 deg 18.5 dBi 2 deg T (including tilting kit and antenna clamp)3
Jumper cable 1,5 m 1/2" 7/16 m/f12
Feeder cable RF 1 5/8"-50372
Connectors 7/16 male, RF 1 5/8"12
Grounding Kit 1 5/8"24
Feeder clamp 2 x 1 5/8" cable (2 cables)186
Mast Head Amplifier, Bias-Tee, Jumper Cables for MHA6
Antenna system w/o MHA, no SRC (3 sectors, 7/8")313260207
Antenna 1710-2170 X-pol 65 deg 18.5 dBi 2 deg T (including tilting kit and antenna clamp)3
Jumper cable 1,5 m 1/2" 7/16 m/f12
Feeder cable RF 7/8"-50132
Connectors 7/16 male, RF 7/8"12
Grounding Kit 7/8"12
Feeder clamp 2 x 7/8" cable (2 cables)66
Antenna system w/o MHA, no SRC (3 sectors, 1 5/8")134112891115ok
Antenna 1710-2170 X-pol 65 deg 18.5 dBi 2 deg T (including tilting kit and antenna clamp)3
Jumper cable 1,5 m 1/2" 7/16 m/f12
Feeder cable RF 1 5/8"-50372
Connectors 7/16 male, RF 1 5/8"12
Grounding Kit 1 5/8"24
Feeder clamp 2 x 1 5/8" cable (2 cables)186
Antenna system, indoor sites (combiners, accessories, existing distributed antenna system)209354159
Antenna system for Indoor sites, swapping of components (162 sites)115470
Splitter, Coupler, Antenna, accessories
TOTAL902863663
Low Noise AmplifierLow Noise Amplifier
SummaryIncremental
Cumulative
The Low Noise Amplifier is included in the Node-B dimensioning and prices.
Mast Head Transmission AmplifierMast Head Transmission Amplifier
SummaryIncremental
Cumulative
Mast Head Transimssion Amplifiers are included in Antenna cost (see "Antennas" table above)
Number of Channels (to be priced against)Number of Channels (to be priced against)
Summary16 kbps Incremental2169648992113920
16 kbps Cumulative2169670688184608
64 kbps Incremental
64 kbps Cumulative
144 kbps Incremental
144 kbps Cumulative
384 kbps Incremental
384 kbps Cumulative
The table above shows clearly the number of channels per site configuration and relevant upgrade configurations.
The capacity upgrade is dimensioned in steps of 32 channels.
CarriersCarriers
SummaryIncremental194317401671
Cumulative194336835354
The table above shows clearly the number of carriers per site configuration and relevant upgrade configurations.
Phase 0Phase 1Phase 2Phase 3Phase 4
Total number of carriers1,9431,7401,671
This antennaline solution is used with Ultrasite Optima Compact Node B in Suburban area.
This antennaline solution is used with Ultrasite Optima Compact Node B in Suburban Area.
This antennaline solution is used with single-mode Node B.
This antennaline solution is used with single-mode Node B.
Nokia:Agreed with StarHub, in relation with GSM ph1 Indoor sites
Nokia:Agreed with StarHub, in relation with GSM ph1 Indoor sites
Nokia:In relation with incremental WCDMA cells
Nokia:In relation with incremental WCDMA cells
Nokia:In relation with incremental WCDMA cells
RNC
RNC Dimensioning
Nokia shall display their dimensioning rules for each network element
Nokia shall fill in the summary cells as these are linked to the Dimensioning Output sheet and BoQ
Nokia shall dimension equipment not listed in the worksheet "Other Equipment"
Nokia shall link all values they are using (inside and outside this spreadsheet)
Nokia shall insert additional rows to include more detail
Phase 0Phase 1Phase 2Phase 3Phase 4
SummaryIncremental239
Cumulative2514
Phase 0Phase 1Phase 2Phase 3Phase 4
Product 1Incremental230.0
Cumulative255
Product 2Incremental9
Cumulative9
Input from RNC Calculation Worksheet
Traffic volume [Mbit/s]1988323994Cumulative
Number of carriers78716032696Cumulative
Number of Node B67813901994Cumulative
One RAN1.0 RNC will be used in Phase 0 to allow early network implementation in 2001. RNC dimensioning for Phase 0 is based on RAN1.5 RNC
which can be upgraded from RAN1.0 RNC through hardware & software upgrade.
RAN1.5 Hardware & Capacity (after upgrade)RAN1.0 Hardware & Capacity (before upgrade)
Product 1 (Phase 0/1)Limiting Parameter 1Limiting Parameter 2Limiting Parameter 3Limiting Parameter 1Limiting Parameter 2Limiting Parameter 3
ConfigurationThroughput in Mbit/sNo of CarriersNo of Node BNo of E1Throughput in Mbit/sNo of CarriersNo of Node BNo of E1
14838412896262568564
2855761921285238412896
312276825616078512170128
4159960320192104640213160
51961152384224130768256192
Product 2 (Phase 2)Limiting Parameter 1Limiting Parameter 2Limiting Parameter 3
ConfigurationThroughput in Mbit/sNo of CarriersNo of Node BNo of E1
Maximum4002304768Not Available
Capacity is indicative. RNC dimensioning is based on maximum configuration
Limitation Parameter 1Phase 0Phase 1Phase 2Phase 3Phase 4
Traffic volume [Mbit/s]1988323145
Maximum Product Capacity for Parameter 1196196400400400
Design Load for Product for Parameter 190%90%90%90%90%
Resultant Design Capacity for Parameter 1176176360360360
No of RNC required1.124.718.740.000.00
Limitation Parameter 2Phase 0Phase 1Phase 2Phase 3Phase 4
Number of carriers7871,6031,093
Maximium Product Capacity for Parameter 211521152230423042304
Design Load for Product for Parameter 290%90%90%90%90%
Resultant Design Capacity for Parameter 210371037207420742074
No of RNC required0.761.550.530.000.00
Limitation Parameter 3Phase 0Phase 1Phase 2Phase 3Phase 4
Number of Node B6781,390604
Maximum Product Capacity for Parameter 3384384768768768
Design Load for Product for Parameter 390%90%90%90%90%
Resultant Design Capacity for Parameter 3346346691691691
No of RNC required1.964.020.870.000.00
No of RNC Required
Phase 0Phase 1Phase 2Phase 3Phase 4
RNC 1961.964.71
RNC 4008.740.000.00
Due toThroughput in Mbit/s, No of carrier, BTS on Last RNC (Product 1)
Phase 0Phase 1Phase 2Phase 3Phase 4
Throughput in Mbit/s0.00139.90294.850.000.00
No of Carrier0.000.000.000.000.00
No of BTS369.330.000.000.000.00
Due toRequired Configuration Type of Last RNC (Product 1)
Phase 0Phase 1Phase 2Phase 3Phase 4
Throughput in Mbit/s04
No of Carrier00
No of BTS50
Configuration54-0.00.0
Type of Products Required (Cumulative)
Phase 0Phase 1Phase 2Phase 3Phase 4
RNC 484800
RNC 858500
RNC 12212200
RNC 15915901
RNC 19619624
RNC 400400900
Total number of product required25900
Number of E1 interfaces4481088
Linked to Radio BoQType of New Products Required (Incremental)
Phase 0Phase 1Phase 2Phase 3Phase 4
RNC&Others CostRNC 260
RNC 520
RNC 780
RNC 1040
RNC 1302One RNC 130 is offered to allow
RNC 4800early network deployment
RNC 8500
RNC 12200
RNC 15901
RNC 19602
RNC 400No of Mbit/s349500
Hardware & Capacity Upgrade Required
Phase 0Phase 1Phase 2Phase 3Phase 4
RNC 26 -> 480
RNC 52 -> 850
RNC 78 -> 1220
RNC 104 -> 1590
RNC 130 -> 1962
RNC 48 -> 8500
RNC 85 -> 12200
RNC 122 -> 15900
RNC 159 -> 19600
Feature CostTotal Installed Mbit/s Capacity of RNC (Cumulative)
Phase 0Phase 1Phase 2Phase 3Phase 4
Total392943443800
1000000000
Total Installed BTS using Circuit Emulation Service (Cumulative)
Phase 0Phase 1Phase 2Phase 3Phase 4
Total6781390199400
800000000
Total Installed Carriers using Transmit Diversity (Cumulative)
Phase 0Phase 1Phase 2Phase 3Phase 4
Total00000
2400000000
Nokia:Figures obtained from 3G Radio Design
Nokia:Manually filled
Nokia:Manually filled
Nokia:Manually filled
Nokia:Manually filled
Nokia:Manually filled
Nokia:Manually filled
Nokia:Manually filled
Nokia:Manually filled
Other equipment
Other Equipment
Nokia shall display their dimensioning rules for each network element
Nokia shall fill in the summary cells as these are linked to the Dimensioning Output sheet and BoQ
Nokia shall dimension equipment not listed in the worksheet "Other Equipment"
Nokia shall link all values they are using (inside and outside this spreadsheet)
Nokia shall insert additional rows to include more detail
Phase 0Phase 1Phase 2Phase 3Phase 4
Test Kit
SummaryIncremental
CumulativeThe Test Kit offered is Totem (see Radio Network planning)
The supplier shall state if appropriate any test kit that would be required under normal conditions for the Radio Network
OMC-R
SummaryIncremental
Cumulative
Site Support
SummaryIncremental578462504
Cumulative57810401544
For all 1-mode Node B's a new UltraSite Support has been offered. The type of UltraSite Support is according to the type (i.e power consumption) of the Node B.
Phase 0Phase 1Phase 2
ExtraTalk Upgrade Kit, GSM sites
Battery SBS60V90
Battery Accessory kit 4*4*SBS60V90
Rectifier RM1100
Battery Shelf, 3rd/4th string
Rectifier Backplane Extension
PDU Extension Big
UltraSite Support
UltraSite Optima Compact Outdoor ROC, 1+1+1, 32 HW-chs, Release 157890208
UltraSite Optima Compact Outdoor ROC, 1+1+1, 64 HW-chs, Release 2372
UltraSite Optima Compact Outdoor ROC 1+1+1, 96 HW-chs, Release 2296
TOTAL5784625041544ok
*) This solution is used for Outdoor Sites as per network plan attached above.
Installation Material-RNC
SummaryIncremental239
Cumulative2514
Phase 0Phase 1Phase 2
RNC239
Installation Material-BTS new sites & Metrosite
SummaryIncremental241358245
Cumulative241599844
Phase 0Phase 1Phase 2
BTS New sites203163177
Metrosite3819568
Installation Material-BTS existing sites
SummaryIncremental437354359
Cumulative4377911150
Phase 0Phase 1Phase 2
BTS (existing sites)437354359
This product is included in MNS Dimensioning.
Site
Site Dimensioning
Nokia shall display their dimensioning rules for each network element
Nokia shall fill in the summary cells as these are linked to the Dimensioning Output sheet and BoQ
Nokia shall dimension equipment not listed in the worksheet "Other Equipment"
Nokia shall link all values they are using (inside and outside this spreadsheet)
Nokia shall insert additional rows to include more detail
The site types in the table below refer to the performance description given in
Node B Sites
SummaryNew 3G SitesPhase 0Phase 1Phase 2Phase 3Phase 4
Number of Sites - Site Type 1- CBD51250
Number of Sites -Site Type 1-HDB106106104
Number of Sites - Site Type 1-Suburban463273
Number of Sites - Site Type 2 : In-Building Metrosite000
Number of Sites - Site Type 2 : In-Building 3 Mode000
3G Sites on Legacy Sites
Number of Sites - Site Type 1- CBD94450
Number of Sites -Site Type 1-HDB196196192
Number of Sites - Site Type 1-Suburban8558135
Number of Sites - Site Type 2 : In-Building Metrosite3819568
Number of Sites - Site Type 2 : In-Building 3 Mode265532
Number of Sites - Site Type 2 : In-Building MRT 3-mode3600
Reference from 'Node B Config'
Total CBD145700145700
Total HDB302302296302302296
Total Suburban1319020813190208
Total In-Building100250100100250100
Please refer to "Node B" sheet for number of sites and upgrades.
RNC Sites
SummaryNew 3G SitesPhase 0Phase 1Phase 2Phase 3Phase 4
Number of Sites - Site Type 1
Number of Sites - Site Type 2
3G Sites on Legacy Sites
Number of Sites - Site Type 11
Number of Sites - Site Type 2
+
=
Nokia:All RNC will be located with core network equipment
Radio output
Output Radio Network Dimensioning
All the links in this sheet refer to the dimensioning of individual items from the previous sheet.
This sheet will be used as the interface to the appropriate Bill of Quantities
Nokia MUST NOT make changes to the formats within this worksheet, as all the links are already implemented.
Time framePhase 0Phase 1Phase 2Phase 3Phase 4
Node B sites
New 3G Sites
Number of Sites - Site Type 1- CBD51250.00.00.0
Number of Sites -Site Type 1-HDB1061061040.00.0
Number of Sites - Site Type 1-Suburban4631730.00.0
Number of Sites - Site Type 2 : In-Building Metrosite0.00.00.00.00.0
Number of Sites - Site Type 2 : In-Building 3 Mode0.00.00.00.00.0
3G Sites on Legacy Sites
Number of Sites - Site Type 1- CBD94450.00.00.0
Number of Sites -Site Type 1-HDB1961961920.00.0
Number of Sites - Site Type 1-Suburban85581350.00.0
Number of Sites - Site Type 2 : In-Building Metrosite38195680.00.0
Number of Sites - Site Type 2 : In-Building 3Mode265532
Number of Sites - Site Type 2 : In-Building MRT/NEL360.00.0
Node B
New Indoor Sites Incremental1002501000.00.0
New Indoor Sites Cumulative1003504500.00.0
Indoor Site Upgrades Incremental0.00.03500.00.0
Indoor Site Upgrades Cumulative0.00.03500.00.0
New Outdoor Sites Incremental5784625040.00.0
New Outdoor Sites Cumulative5781,0401,5440.00.0
Outdoor Site Upgrades Incremental0.04478190.00.0
Outdoor Site Upgrades Cumulative0.04471,2660.00.0
Antennas, complete systems
Incremental9028636630.00.0
Cumulative9021,7652,4280.00.0
Feeders
Incremental0.00.00.00.00.0Part of Antennas
Cumulative0.00.00.00.00.0
Low Noise Receive Amplifier
Incremental0.00.00.00.00.0Part of Node B
Cumulative0.00.00.00.00.0
Mast Head Transmission Amplifier
Incremental0.00.00.00.00.0Part of Antennas
Cumulative0.00.00.00.00.0
Channels
16 kbps Incremental21,69648,992113,9200.00.0Part of Node B
16 kbps Cumulative21,69670,688184,6080.00.0
Nokia Node B
64 kbps Incremental0.00.00.00.00.0supports
64 kbps Cumulative0.00.00.00.00.016 kbps HW-chs.
For this reason all
144 kbps Incremental0.00.00.00.00.0HW-ch capacities
144 kbps Cumulative0.00.00.00.00.0are stated as
16 kbps.
384 kbps Incremental0.00.00.00.00.0
384 kbps Cumulative0.00.00.00.00.0
Carriers
Incremental1,9431,7401,6710.00.0Part of Node B
Cumulative1,9433,6835,3540.00.0
RNC Sites
New 3G Sites
Number of Sites - Site Type 10.00.00.00.00.0To be agreed
Number of Sites - Site Type 20.00.00.00.00.0separately with
StarHub
3G Sites on Legacy Sites
Number of Sites - Site Type 110.00.00.00.0
Number of Sites - Site Type 20.00.00.00.00.0
Phase 0Phase 1Phase 2Phase 3Phase 4
RNC
Incremental2390.00.0
Cumulative25140.00.0
Test Kit
Incremental0.00.00.00.00.0Not part of Nokia's portfolio
Cumulative0.00.00.00.00.0
OMC-R
Incremental0.00.00.00.00.0Part of MNS
Cumulative0.00.00.00.00.0
Site Support
Incremental5784625040.00.0
Cumulative5781,0401,5440.00.0
Installation Material-RNC
Incremental2390.00.0
Cumulative25140.00.0
Installation Material-BTS new sites & Metrosite
Incremental2413582450.00.0
Cumulative2415998440.00.0
Installation Material-BTS existing sites
Incremental4373543590.00.0
Cumulative4377911,1500.00.0
Nokia:All RNC will be located at one site together with the core network equipment
Traf Call Mix
TRAFFIC (CALL & APPLICATION MIX)
VOICE & CIRCUIT SWITCHED TRAFFIC
3G Service Land area CoveredPhase 0Phase 1Phase 2
sqkm.
CBD/Technopark252525
HDB/Urban85170170
Suburban/Rural10818330534
Indoor/MRT000
Total218378534
Voice SubscribersPhase 0Phase 1Phase 2
12.2kbps
CBD/Technopark68892317845622
HDB/Urban135084158780409
Suburban/Rural65535788288921
Indoor/MRT29471940742885
Total2400087750178125
Voice Messaging SubscribersPhase 0Phase 1Phase 2
14.4kbps
CBD/Technopark71192488959856
HDB/Urban1395944658105497
Suburban/Rural6773843108741208
Indoor/MRT30462084056265
Total2480094230233700
Video Conferencing SubscribersPhase 0Phase 1Phase 2
64kbps
CBD/Technopark0022117
HDB/Urban0038982
Suburban/Rural004018446
Indoor/MRT0020791
Total0086355
PACKET SWITCHED DATA TRAFFIC
SubscribersPhase 1Phase 2Phase 3
Dense Urban174774556782478
Urban1542149055109027
Suburban1495767420811
Rural56073270372685
Total40000135000285000
16kbps UL, kbps/subPhase 0Phase 1Phase 216kbps DL, kbps/subPhase 0Phase 1Phase 2
CBD/Technopark0.17600.23720.2778CBD/Technopark0.01760.02370.0278
HDB/Urban0.39110.39540.3704HDB/Urban0.03910.03950.0370
Suburban/Rural0.19560.21750.0000Suburban/Rural0.01960.02170.0000
Indoor/MRT0.23470.27680.2963Indoor/MRT0.02350.02770.0296
64kbps UL, kbps/subPhase 0Phase 1Phase 264kbps DL, kbps/subPhase 0Phase 1Phase 2
CBD/Technopark0.03200.06080.1134CBD/Technopark0.16810.22310.3821
HDB/Urban0.07120.10140.1513HDB/Urban0.37350.37180.5095
Suburban/Rural0.03560.05570.0817Suburban/Rural0.18670.20450.0000
Indoor/MRT0.04270.07090.1210Indoor/MRT0.22410.26030.4076
144 kbps UL, kbps/subPhase 0Phase 1Phase 2144 kbps DL, kbps/subPhase 0Phase 1Phase 2
Dense Urban0.00000.00000.0000Dense Urban0.00000.00000.0000
Urban0.00000.00000.0000Urban0.00000.00000.0000
Suburban0.00000.00000.0000Suburban0.00000.00000.0000
Rural0.00000.00000.0000Rural0.00000.00000.0000
128kbps UL, kbps/subPhase 0Phase 1Phase 2128kbps DL, kbps/subPhase 0Phase 1Phase 2
CBD/Technopark0.15960.55431.6394CBD/Technopark0.61850.00.0
HDB/Urban0.35470.92392.1859HDB/Urban1.37452.03610.0
Suburban/Rural0.17730.50810.0000Suburban/Rural0.68731.11990.0
Indoor/MRT0.21280.64671.7487Indoor/MRT0.82471.42533.1681
384kbps UL, kbps/subPhase 0Phase 1Phase 2384kbps DL, kbps/subPhase 0Phase 1Phase 2
CBD/Technopark0.00.00.0CBD/Technopark0.01.22172.9701
HDB/Urban0.00.00.0HDB/Urban0.00.03.9602
Suburban/Rural0.00.00.0Suburban/Rural0.00.00.0000
Indoor/MRT0.00.00.0Indoor/MRT0.00.00.0
NOTE : The link to "Nokia Annex - 3G Call & Applciation Mix.xls" for 64kbps has to be divided into two parts due to limitation the character length of Excel formula
64 kbps UL traffic (part 1)Phase 0Phase 1Phase 264 kbps DL traffic (part 1)Phase 0Phase 1Phase 2
CBDCBD
Urban/HDBUrban/HDB
SuburbanSuburban
Indoor/MRTIndoor/MRT
64 kbps UL traffic (part 2)Phase 0Phase 1Phase 264 kbps DL traffic (part 2)Phase 0Phase 1Phase 2
CBDCBD
Urban/HDBUrban/HDB
SuburbanSuburban
Indoor/MRTIndoor/MRT
Nokia:Sum of traffic for the following services : SMS, Email without Attachments, Email with Text and Graphics Attachments, Web Browsing, E-Postcard, Text Download.
Nokia:Sum of traffic for the following services : , Email with Video/Audio Attachments, Audio/Video Download, Audio/Video Streaming, Collaborative Working, E-Payments, Interactive Games, Telemetry, Surveillance, Location-based Applications
Nokia:Sum of traffic for the following services : SMS, Email without Attachments, Email with Text and Graphics Attachments, Web Browsing, E-Postcard, Text Download.
Nokia:Sum of traffic for the following services : , Email with Video/Audio Attachments, Audio/Video Download, Audio/Video Streaming, Collaborative Working, E-Payments, Interactive Games, Telemetry, Surveillance, Location-based Applications
Nokia:The Suburban area in Phase 2 is divided into 90% and 10% ratio as per StarHub Rev. K requirement
Nokia:The Suburban area in Phase 2 is divided into 90% and 10% ratio as per StarHub Rev. K requirement
Nokia:Assume tarffic is evenly distributed in the Suburban area
Nokia:Assume traffic is evenly distributed in the Suburban area
Nokia:Assume traffic is evenly distributed in the Suburban area
Nokia:Assume traffic is evenly distributed in the Suburban area
Nokia:Assume traffic is evenly distributed in the Suburban area
Nokia:Assume traffic is evenly distributed in the Suburban area
Node B Config
The table below shows the Node B count for StarHub Rev. K Scenario 5 for each phase.
CumulativePhase 0, 9/2002Phase 1, 9/2003Phase 2, 9/2004
Config.Incr.CumHW Ch/Node BHW Ch/Node BIncr. HW ChCarriersConfig.Incr.CumHW Ch/Node BHW Ch/Node BIncr. HW ChCarriersConfig.Incr.CumHW Ch/Node BHW Ch/Node BIncr. HW ChCarriers
SitesSitesDimensionedOfferedOfferedSitesSitesDimensionedOfferedOfferedSitesSitesDimensionedOfferedOffered
CBDUltraSite Optima Compact ROC11114514520324,6404351117021550649,120210
UltraSite Optima Compact CEC111021516619227,5200
HDBUltraSite Optima Compact ROC11130230220329,664906111302604366428,992906111296900699647,744888
SuburbanUltraSite Optima Compact ROC + MHA11113113111324,1923931119022116322,8802701112084290326,656624
IndoorMetroSite Node B11003824321,21638119523327326,240195168301699621,44068
Inbuilding 3-mode Node B1115243248030116212732192121152669961,82410
Inbuilding 3-mode Node B1114724321,504141111499627321,5681471112712369968,73681
SitesMacro57857821,6961,7344621,04048,9921,3865041,544113,9201,512
Indoor100100209250350354100450159
Total6781,9431,3901,7401,9941,671
Cumulative1,9433,683184,6085,354
Total HW -chs:184,608
Total Carriers:5,354
Nokia:The number of 2 sectors Inbuilding Node B in Phase 0 is as per StarHub Rev. K requirement.
Nokia:The number of 3 sectors Inbuilding Node B in Phase 0 is as per StarHub Rev. K requirement.
Nokia:The number of 2 sectors Inbuilding Node B in Phase 1 is as per StarHub Rev. K requirement.
Nokia:The number of 3 sectors Inbuilding Node B in Phase 1 is as per StarHub Rev. K requirement.
Nokia:The number of 2 sectors Inbuilding Node B in Phase 2 is as per StarHub Rev. K requirement.
Nokia:The number of 3 sectors Inbuilding Node B in Phase 2 is as per StarHub Rev. K requirement.
Nokia:The number of 1 sector Inbuilding Node B in Phase 0 is as per StarHub Rev. K requirement.
Nokia:The number of 1 sector Inbuilding Node B in Phase 1 is as per StarHub Rev. K requirement.
Nokia:The number of 1 sector Inbuilding Node B in Phase 2 is as per StarHub Rev. K requirement.
RNC Calculation Workingsheet
AreaVoice SubsBS Type#Sites (BS)Total Iub per siteTotal BS trafficto RNCTotal RNCTraffic (Mbps)Total Carriers# RNC LimitedCarriers# RNC LimitedProcessing Capacity#RNC Limited by NodeBRequired # of RNCRequired # of RNCs
(Mbps)Mbps
Phase 0198.47870.761.121.961.962
CBD6,8891111450.553.49
HDB13,5081113020.5107.58
Suburban6551111310.114.14
Indoor2,9471380.323.22
1115
11147
24,000678
Phase 1831.51,6031.554.714.024.715
CBD23,1781112151.5246.08
HDB41,5871116040.8374.40
Suburban3,5781112210.345.85
Indoor19,40712330.6165.17
1121
11196
87,7501390
Phase 23994.12,69614
CBD45,6221112156.31,010.18
HDB80,4091119002.91,964.15
Suburban9,2091114291.0314.63Addl TrafficAddl Carrier
Indoor42,88513012.1705.103145.4008.740.878.74
1126
111123
178,1251994
For Phase 0 & 1
RNC Iub capacity (max)196Mbits
RNC carrier capacity (max)1152Carriers
RNC Node B Capacity384Node B's
For Phase 2
RNC Iub capacity (max)400Mbits
RNC carrier capacity (max)2304Carriers
RNC Node B Capacity768Node B's
RNC Fill Rate90%
PhasesRNC 1RNC 2Total RNC
Config 1Config 2Config 3Config 4Config 5
Phase 00000202
Phase 10001405
Phase 200014914
RNC 2
ConfigThroughputAfter Load FactorCarriersAfter Load FactorNode BAfter Load Factor
14843.2384345.6128115.2
28576.5576518.4192172.8
3122109.8768691.2256230.4
4159143.1960864320288
5196176.411521036.8384345.6
Nokia:ROC has only 1 carrier.Refer to "Node B Config" worksheet for ROC or CEC BS types distribution in each region and phase.
Nokia:ROC has only 1 carrier.Refer to "Node B Config" worksheet for ROC or CEC BS types distribution in each region and phase.
Nokia:ROC has only 1 carrier.Refer to "Node B Config" worksheet for ROC or CEC BS types distribution in each region and phase.
RADIM Intro
Radio Network Dimensioning Tools (RADIM)RADIM NAVIGATION PAGE
1. Introduction
Radim is an excel spread sheet created by Nokia to provide traceability in dimensioning the Node Bs for StarHub 3G Node B dimensioning.
2. Program Structure
Radim is designed to be modular, the structure is as shown below :
3. User Interaction
1) Based on the "No. of Cells" calculated in the "Area Coverage Calculation" module (as shown above), the user would propose a minimal number of TRXes equal to the number of cells (ie. a 1+1+1 Node B configuration for all Node Bs) and enter this figure in
2) The user would then observe whether this number of TRXes will result in the calculated "UL, DL Cell Loading" and "Required Power/TRX (W)" that exceeds the target values. The average no. of HW Channels per Node B is calculated as well. Hence, in this wa
3) Since the spectrum availability is 10 MHz, the user has to note that if the "Proposed # of TRXes" are greater than a 2+2+2 Node B configuration for all Node Bs, then the "No. of Sites required for coverage" shall increase automatically to accommodate a
4) All the results calculated by the respective module eg. Cell Loading Calculation, HW Channel Calculation etc. are returned to the Control Panel for ease of observation.
CDB Link Budget
HDB Link Budget
Suburban Link Budget
RADIM CBD Phase 0
RADIM HDB Phase 0
RADIM Suburban Phase 0
RADIM Indoor Phase 0
RADIM CBD Phase 1
RADIM HDB Phase 1
RADIM Suburban Phase 1
RADIM Indoor Phase 1
RADIM CBD Phase 2
RADIM HDB Phase 2
RADIM Suburban Phase 2 (90%)
RADIM Indoor Phase 2
Input from Nokia Annex 3G - Dimensioning Rules (S2).xls(e.g. Eb/No,BS Height etc)
Input from "Link Budget" worksheets from respective region (eg. CBD, HDB, Suburban)
Input from "Traf Call Mix for Scenario1&2" worksheet (eg. Area size & traffic )
RADIM
No. of Sites & Configuration
Average Hardware Channel per Node B
UL & DL Cell Loading, Total Node B Tx Power
TRXs No. (User Input Manually)
HW Channel Calculation
Cell Loading Calculation
Required Transmit Power/TRX
Interfering Channel Calculation
Area Coverage Calculation
Traffic Input & Eb/No Table
System Design Parameter Input
Dimensioning Control Panel & Outputs
User Input Proposed # of TRXs
3G Demographics
Link Budget (Cell Range)
Initial #TRXes for a 1+1+1 site config
Add TRXes
If calculated DL cell loading exceeds requirement
If calculated transmit power exceeds BS power requirement
RADIM Suburban Phase 2 (10%)
Link Budget CBD
Link Budget CBD/Technopark
ParameterSpeech (12.2kbps)14.4kb/s LCD16kb/s UDD64kb/s LCD64kb/s UDD144kb/s UDD384kb/s UDD
UplinkDownlinkUplinkDownlinkUplinkDownlinkUplinkDownlinkUplinkDownlinkUplinkDownlinkUplinkDownlink
Transmitter Subsystem
Average Tx Power (dBm)21.0017.9421.0017.9421.0017.9421.0018.9421.0018.9421.0024.9421.0024.94
Tx antenna gain (dBi)0.0018.000.0018.000.0018.000.0018.000.0018.000.0018.000.0018.00
Cable & combiner losses (dB)0.003.000.003.000.003.000.003.000.003.000.003.000.003.00
Body Proximity Loss (dB)4.004.001.001.001.001.001.001.001.001.001.001.001.001.00
Tx EIRP (dBm)17.0028.9420.0031.9420.0031.9420.0032.9420.0032.9420.0038.9420.0038.94
Receiver Subsystem
Rx antenna gain (dBi)18.000.0018.000.0018.000.0018.000.0018.000.0018.000.0018.000.00
Rx feeder loss (dB)3.000.003.000.003.000.003.000.003.000.003.000.003.000.00
Diversity gain (dB)0.000.000.000.000.000.000.000.000.000.000.000.000.000.00
MDC Gain (dB)0.001.200.001.200.001.200.001.200.001.200.001.200.001.20
Polarisation Loss (dB)1.501.501.501.501.501.501.501.501.501.501.501.501.501.50
MHA Gain0.000.000.000.000.000.000.000.000.000.000.000.000.000.00
Rx System Gain (dB)13.50-0.3013.50-0.3013.50-0.3013.50-0.3013.50-0.3013.50-0.3013.50-0.30
Noise Calculation
Boltzmans Constant (dBm/K/Hz)-198.60-198.60-198.60-198.60-198.60-198.60-198.60-198.60-198.60-198.60-198.60-198.60-198.60-198.60
Temperature (dB)24.7724.7724.7724.7724.7724.7724.7724.7724.7724.7724.7724.7724.7724.77
Receiver Bandwidth (dB)65.8465.8465.8465.8465.8465.8465.8465.8465.8465.8465.8465.8465.8465.84
kTB (dBm)-107.99-107.99-107.99-107.99-107.99-107.99-107.99-107.99-107.99-107.99-107.99-107.99-107.99-107.99
Receiver noise figure (dB)3.008.003.008.003.008.003.008.003.008.003.008.003.008.00
Total noise power (dBm)-104.99-99.99-104.99-99.99-104.99-99.99-104.99-99.99-104.99-99.99-104.99-99.99-104.99-99.99
Processing Gain24.9824.9824.2624.2623.8023.8017.7817.7817.7817.7814.2614.2610.0010.00
Interference Calculation
Interference margin (dB)3.013.653.013.653.013.653.013.653.013.653.013.653.013.65
Eb/No (dB)4.006.504.006.504.006.502.005.502.005.501.505.001.004.50
Required receive power (dBm)-122.96-114.82-122.24-114.10-121.78-113.64-117.76-108.62-117.76-108.62-114.74-105.60-110.98-101.84
Path Loss Calculation
Fade margin (dB)11.0011.0011.0011.0011.0011.0011.0011.0011.0011.0011.0011.0011.0011.00
Handover gain (dB)4.004.004.004.004.004.004.004.004.004.004.004.004.004.00
Penetration margin (dB)18.0018.0018.0018.0018.0018.0018.0018.0018.0018.0018.0018.0018.0018.00
Maximum pathloss exc. margins (dB)153.46153.46155.74155.74155.28155.28151.26151.26151.26151.26148.24148.24144.48144.48
IPL Correction Factor0.006.000.006.000.006.000.006.000.006.000.000.000.000.00
UL Power Control Headroom(dB)4.000.004.000.004.000.004.000.004.000.004.000.004.000.00
Maximum path loss (dB)124.46124.46126.74126.74126.28126.28122.26122.26122.26122.26119.24119.24115.48115.48
Maximum range (km)0.340.340.400.400.390.390.300.300.300.300.240.240.190.19
Speech (12.2kbps)14.4kb/s LCD16kb/s UDD64kb/s LCD64kb/s UDD144kb/s UDD384kb/s UDD
12.214.4166464144384
UplinkDownlinkUplinkDownlinkUplinkDownlinkUplinkDownlinkUplinkDownlinkUplinkDownlinkUplinkDownlink
Nokia:Temperature 300K
Nokia:Signal is spread over 3.84 MHz Bandwidth
Nokia:Interference margin = 10*log(1-load).The UL Interference Margin is calculated from the maximum UL load of 50% as stated in Rev. K requirement. The DL Interference Margin is calculated from the highest DL Load (among all the phases) reached as calculated in RADIM in the particular geotype.
Nokia:StarHub Rev. K requirement
RADIM Intro
Nokia :IPL Correction Factor applies only to DL
Nokia:MHA gain in the downlink refers to insertion loss of -0.5 dB in the TX path. StarHub Rev. K requires MHA to be implemented only in Suburban.
Nokia:StarHub Rev. K requirement
Nokia:StarHub Rev. K requirement
Nokia:Okumura-Hata propagation model is used with correction factor stated in StarHub Rev. K requirement.
Nokia:StarHub Rev. K requires mobile to transmit at 21 dBm for all services.
Nokia:StarHub Rev. K requirement to assume Body Loss of 4 dB for Speech and 1 dB for data application.
Nokia:StarHub Rev. K requirement
RADIM CBD PH0
3G RADIO DIMENSIONING TOOL (RADIM) CBD/TECHNOPARK PHASE 0
No. of Sectors per Node B1
SHO OH40%
No. of HW channels for UL Signalling8
No. of HW channels for DL Signalling8
Chip Rate (Mcps)3.84
GOS2%
UL signalling overhead factor1.00
DL signalling overhead factor1.00
Capacity Reduction0%
Orthogonality50%
Voice Activity UL67%
Voice Activity DL58%
Activity Factor for Data UL100%
Activity Factor for Data DL100%
Macro Diversity Combining (MDC) Gain, DL (dB)1.2
Power Rise (dB)1
Other cell interference factor,i0.65
1+i*power_rise1.82
Voice bearer rate(kbps)12.2
CS-14.4 bearer rate(kbps)14.4
CS-64 bearer rate(kbps)64
PS-16 bearer rate(kbps)16
PS-64 bearer rate(kbps)64
PS-144 bearer rate(kbps)144
PS-128 bearer rate(kbps)128
PS-384 bearer rate (kbps)384
Data RateHW Channels
Speech (12.2 kbps)1
-
Traffic for different Services
Front page
Annex - 3G Radio Network Dimensioning
Scope :
Nokia shall supply all relevant information for the dimensioning of the 3G Radio network equipment
Nokia shall link worksheets internally and externally where appropriate
Sources to be considered:
Nokia should hyperlink here any other sources used
Nokia shall :
Display all internal and external links to this spreadsheet for the dimensioning of each element
Include numbers of all network equipment needed for all the phases considered
Detail all Hardware and Software upgrades for all network equipment during the overall time frame considered
Include all elements required for interworking with the Legacy Network.
Detail in this spreadsheet the implementation and limiting factors for each sub-element should nodes be combined
Include all associated security, routing, encryption and compression protocols/algorithms
Detail assumptions for resilience and redundancy
Include the number and classification of sites needed as per Annex-Generic Radio/Core Site Performance Specification.
Include Operation & Maintenance units (OMC-R) in this dimensioning
Include numbers of all 3G Radio Network Equipment needed for the StarHub network for all the phases considered
Definitions
Node B
Node B dimensioning
Nokia shall display their dimensioning rules for each network element
Nokia shall fill in the summary cells as these are linked to the Dimensioning Output sheet and BoQ
Nokia shall dimension equipment not listed in the worksheet "Other Equipment"
Nokia shall link all values they are using (inside and outside this spreadsheet)
Nokia shall insert additional rows to include more detail
Phase 0Phase 1Phase 2Phase 3Phase 4
Node BNode B
SummaryNew Indoor Sites Incremental10025010000
New Indoor Sites Cumulative10035045000
Indoor Site Upgrades Incremental0035000
Indoor Site Upgrades Cumulative0035000
New Outdoor Sites Incremental57846250400
New Outdoor Sites Cumulative5781040154400
Outdoor Site Upgrades Incremental044781900
Outdoor Site Upgrades Cumulative0447126600
The table below indicates with yellow the site configurations used in the proposed radio network plan.
The table also indicates the number of channels per configuration and per expansion configurations.
Furthermore, the number of carriers per configuration is also indicated in the table.
This list doesn't list all possible configurations supported. It was not seen as feasible to include the whole list, as there's more than 200 configurations available.
The summary table above has been slightly modified to better represent the configuration options offered, including site upgrade options.
Phase 0Phase 1Phase 2
CBD
UltraSite Optima Compact ROC, 1+1+1, 32 HW-chs, Release 1145
UltraSite Optima Compact ROC, 1+1+1, 64 HW-chs, Release 270
Upgrades
Upgrade ROC to CEC ( 2 pcs WPA-units)215
1+1+1, 32 to 64 HW-chs (1 pc 32-ch WSP-unit)145
1+1+1, 64 to 192 HW-chs (2 pcs 64-ch WSP-units)215
HDB
UltraSite Optima Compact ROC, 1+1+1, 32 HW-chs, Release 1302
UltraSite Optima Compact ROC, 1+1+1, 64 HW-chs, Release 2302
UltraSite Optima Compact ROC, 1+1+1, 96 HW-chs, Release 2296
Upgrades
1+1+1, 32 to 64 HW-chs (1 pc 32-ch WSP-unit)302
1+1+1, 64 to 96 HW-chs (1 pc 32-ch WSP-unit)6041115
SubUrban
UltraSite Optima Compact ROC, 1+1+1, 32 HW-chs, Release 113190208
New Outdoor Sites5784625041544ok
Upgraded Outdoor Sites447819
Indoor/MRT
MetroSite Indoor/Outdoor, 1-omni, 32 HW-chs, Release 138195
MetroSite Indoor/Outdoor, 1-omni, 96 HW-chs, Release 268
UltraSite WCDMA, 1+1 (subrack), 32 HW-chs, Release 1 (triple-mode, cabinet included)156
UltraSite WCDMA, 1+1 (subrack), 96 HW-chs, Release 2 (triple-mode, cabinet included)5
UltraSite WCDMA, 1+1+1 (subrack), 32 HW-chs, Release 1 (triple-mode, cabinet included)4749
UltraSite WCDMA, 1+1+1 (subrack), 96 HW-chs, Release 2 (triple-mode, cabinet included)27
Upgrades
Metro 1-omni 32 HW-chs to 96 HW-chs (1 pc 64-ch WSP-unit)233
1+1 (subrack), 32 HW-chs to 96 HW-chs (1 pc 64-ch WSP-unit)21
1+1+1 (subrack), 32 HW-chs to 96 HW-chs (1 pc 64-ch WSP-unit)96
New Indoor Sites100250100450ok
Upgraded Indoor Sites350
FeedersFeeders
SummaryIncremental
Cumulative
The Feeders are priced as part of the Antenna Solutions listed under "Antennas".
AntennasAntennas
SummaryIncremental902863663
Cumulative9021765242800
The Antenna Solutions below includes both Antennas and Feeders.
For all 1-mode Node B's a new UltraSite Support has been offered. The type of UltraSite Support is according to the type (i.e power consumption) of the Node B.
- Nokia has evaluated the average length of feeders in StarHub's GSM network. 30% of feeders are 41 m and longer; for these 1 5/8" feeder has been offered
Average length is about 62 m. 70% of feeders are 40 m and shorter; for these 7/8" feeder has been offered. Average length is about 22m
MHA = Mast Head Amplifier
Phase 0Phase 1Phase 2
Antenna system with MHA, no SRC (3 sectors, 7/8")9263146
Antenna 1710-2170 X-pol 65 deg 18.5 dBi 2 deg T (including tilting kit and antenna clamp)3
Jumper cable 1,5 m 1/2" 7/16 m/f12
Feeder cable RF 7/8"-50132
Connectors 7/16 male, RF 7/8"12
Grounding Kit 7/8"12
Feeder clamp 2 x 7/8" cable (2 cables)66
Mast Head Amplifier, Bias-Tee, Jumper Cables for MHA6
Antenna system with MHA, no SRC (3 sectors, 1 5/8")392762429ok
Antenna 1710-2170 X-pol 65 deg 18.5 dBi 2 deg T (including tilting kit and antenna clamp)3
Jumper cable 1,5 m 1/2" 7/16 m/f12
Feeder cable RF 1 5/8"-50372
Connectors 7/16 male, RF 1 5/8"12
Grounding Kit 1 5/8"24
Feeder clamp 2 x 1 5/8" cable (2 cables)186
Mast Head Amplifier, Bias-Tee, Jumper Cables for MHA6
Antenna system w/o MHA, no SRC (3 sectors, 7/8")313260207
Antenna 1710-2170 X-pol 65 deg 18.5 dBi 2 deg T (including tilting kit and antenna clamp)3
Jumper cable 1,5 m 1/2" 7/16 m/f12
Feeder cable RF 7/8"-50132
Connectors 7/16 male, RF 7/8"12
Grounding Kit 7/8"12
Feeder clamp 2 x 7/8" cable (2 cables)66
Antenna system w/o MHA, no SRC (3 sectors, 1 5/8")134112891115ok
Antenna 1710-2170 X-pol 65 deg 18.5 dBi 2 deg T (including tilting kit and antenna clamp)3
Jumper cable 1,5 m 1/2" 7/16 m/f12
Feeder cable RF 1 5/8"-50372
Connectors 7/16 male, RF 1 5/8"12
Grounding Kit 1 5/8"24
Feeder clamp 2 x 1 5/8" cable (2 cables)186
Antenna system, indoor sites (combiners, accessories, existing distributed antenna system)209354159
Antenna system for Indoor sites, swapping of components (162 sites)115470
Splitter, Coupler, Antenna, accessories
TOTAL902863663
Low Noise AmplifierLow Noise Amplifier
SummaryIncremental
Cumulative
The Low Noise Amplifier is included in the Node-B dimensioning and prices.
Mast Head Transmission AmplifierMast Head Transmission Amplifier
SummaryIncremental
Cumulative
Mast Head Transimssion Amplifiers are included in Antenna cost (see "Antennas" table above)
Number of Channels (to be priced against)Number of Channels (to be priced against)
Summary16 kbps Incremental2169648992113920
16 kbps Cumulative2169670688184608
64 kbps Incremental
64 kbps Cumulative
144 kbps Incremental
144 kbps Cumulative
384 kbps Incremental
384 kbps Cumulative
The table above shows clearly the number of channels per site configuration and relevant upgrade configurations.
The capacity upgrade is dimensioned in steps of 32 channels.
CarriersCarriers
SummaryIncremental194317401671
Cumulative194336835354
The table above shows clearly the number of carriers per site configuration and relevant upgrade configurations.
Phase 0Phase 1Phase 2Phase 3Phase 4
Total number of carriers1,9431,7401,671
This antennaline solution is used with Ultrasite Optima Compact Node B in Suburban area.
This antennaline solution is used with Ultrasite Optima Compact Node B in Suburban Area.
This antennaline solution is used with single-mode Node B.
This antennaline solution is used with single-mode Node B.
Nokia:Agreed with StarHub, in relation with GSM ph1 Indoor sites
Nokia:Agreed with StarHub, in relation with GSM ph1 Indoor sites
Nokia:In relation with incremental WCDMA cells
Nokia:In relation with incremental WCDMA cells
Nokia:In relation with incremental WCDMA cells
RNC
RNC Dimensioning
Nokia shall display their dimensioning rules for each network element
Nokia shall fill in the summary cells as these are linked to the Dimensioning Output sheet and BoQ
Nokia shall dimension equipment not listed in the worksheet "Other Equipment"
Nokia shall link all values they are using (inside and outside this spreadsheet)
Nokia shall insert additional rows to include more detail
Phase 0Phase 1Phase 2Phase 3Phase 4
SummaryIncremental239
Cumulative2514
Phase 0Phase 1Phase 2Phase 3Phase 4
Product 1Incremental230.0
Cumulative255
Product 2Incremental9
Cumulative9
Input from RNC Calculation Worksheet
Traffic volume [Mbit/s]1988323994Cumulative
Number of carriers78716032696Cumulative
Number of Node B67813901994Cumulative
One RAN1.0 RNC will be used in Phase 0 to allow early network implementation in 2001. RNC dimensioning for Phase 0 is based on RAN1.5 RNC
which can be upgraded from RAN1.0 RNC through hardware & software upgrade.
RAN1.5 Hardware & Capacity (after upgrade)RAN1.0 Hardware & Capacity (before upgrade)
Product 1 (Phase 0/1)Limiting Parameter 1Limiting Parameter 2Limiting Parameter 3Limiting Parameter 1Limiting Parameter 2Limiting Parameter 3
ConfigurationThroughput in Mbit/sNo of CarriersNo of Node BNo of E1Throughput in Mbit/sNo of CarriersNo of Node BNo of E1
14838412896262568564
2855761921285238412896
312276825616078512170128
4159960320192104640213160
51961152384224130768256192
Product 2 (Phase 2)Limiting Parameter 1Limiting Parameter 2Limiting Parameter 3
ConfigurationThroughput in Mbit/sNo of CarriersNo of Node BNo of E1
Maximum4002304768Not Available
Capacity is indicative. RNC dimensioning is based on maximum configuration
Limitation Parameter 1Phase 0Phase 1Phase 2Phase 3Phase 4
Traffic volume [Mbit/s]1988323145
Maximum Product Capacity for Parameter 1196196400400400
Design Load for Product for Parameter 190%90%90%90%90%
Resultant Design Capacity for Parameter 1176176360360360
No of RNC required1.124.718.740.000.00
Limitation Parameter 2Phase 0Phase 1Phase 2Phase 3Phase 4
Number of carriers7871,6031,093
Maximium Product Capacity for Parameter 211521152230423042304
Design Load for Product for Parameter 290%90%90%90%90%
Resultant Design Capacity for Parameter 210371037207420742074
No of RNC required0.761.550.530.000.00
Limitation Parameter 3Phase 0Phase 1Phase 2Phase 3Phase 4
Number of Node B6781,390604
Maximum Product Capacity for Parameter 3384384768768768
Design Load for Product for Parameter 390%90%90%90%90%
Resultant Design Capacity for Parameter 3346346691691691
No of RNC required1.964.020.870.000.00
No of RNC Required
Phase 0Phase 1Phase 2Phase 3Phase 4
RNC 1961.964.71
RNC 4008.740.000.00
Due toThroughput in Mbit/s, No of carrier, BTS on Last RNC (Product 1)
Phase 0Phase 1Phase 2Phase 3Phase 4
Throughput in Mbit/s0.00139.90294.850.000.00
No of Carrier0.000.000.000.000.00
No of BTS369.330.000.000.000.00
Due toRequired Configuration Type of Last RNC (Product 1)
Phase 0Phase 1Phase 2Phase 3Phase 4
Throughput in Mbit/s04
No of Carrier00
No of BTS50
Configuration54-0.00.0
Type of Products Required (Cumulative)
Phase 0Phase 1Phase 2Phase 3Phase 4
RNC 484800
RNC 858500
RNC 12212200
RNC 15915901
RNC 19619624
RNC 400400900
Total number of product required25900
Number of E1 interfaces4481088
Linked to Radio BoQType of New Products Required (Incremental)
Phase 0Phase 1Phase 2Phase 3Phase 4
RNC&Others CostRNC 260
RNC 520
RNC 780
RNC 1040
RNC 1302One RNC 130 is offered to allow
RNC 4800early network deployment
RNC 8500
RNC 12200
RNC 15901
RNC 19602
RNC 400No of Mbit/s349500
Hardware & Capacity Upgrade Required
Phase 0Phase 1Phase 2Phase 3Phase 4
RNC 26 -> 480
RNC 52 -> 850
RNC 78 -> 1220
RNC 104 -> 1590
RNC 130 -> 1962
RNC 48 -> 8500
RNC 85 -> 12200
RNC 122 -> 15900
RNC 159 -> 19600
Feature CostTotal Installed Mbit/s Capacity of RNC (Cumulative)
Phase 0Phase 1Phase 2Phase 3Phase 4
Total392943443800
1000000000
Total Installed BTS using Circuit Emulation Service (Cumulative)
Phase 0Phase 1Phase 2Phase 3Phase 4
Total6781390199400
800000000
Total Installed Carriers using Transmit Diversity (Cumulative)
Phase 0Phase 1Phase 2Phase 3Phase 4
Total00000
2400000000
Nokia:Figures obtained from 3G Radio Design
Nokia:Manually filled
Nokia:Manually filled
Nokia:Manually filled
Nokia:Manually filled
Nokia:Manually filled
Nokia:Manually filled
Nokia:Manually filled
Nokia:Manually filled
Other equipment
Other Equipment
Nokia shall display their dimensioning rules for each network element
Nokia shall fill in the summary cells as these are linked to the Dimensioning Output sheet and BoQ
Nokia shall dimension equipment not listed in the worksheet "Other Equipment"
Nokia shall link all values they are using (inside and outside this spreadsheet)
Nokia shall insert additional rows to include more detail
Phase 0Phase 1Phase 2Phase 3Phase 4
Test Kit
SummaryIncremental
CumulativeThe Test Kit offered is Totem (see Radio Network planning)
The supplier shall state if appropriate any test kit that would be required under normal conditions for the Radio Network
OMC-R
SummaryIncremental
Cumulative
Site Support
SummaryIncremental578462504
Cumulative57810401544
For all 1-mode Node B's a new UltraSite Support has been offered. The type of UltraSite Support is according to the type (i.e power consumption) of the Node B.
Phase 0Phase 1Phase 2
ExtraTalk Upgrade Kit, GSM sites
Battery SBS60V90
Battery Accessory kit 4*4*SBS60V90
Rectifier RM1100
Battery Shelf, 3rd/4th string
Rectifier Backplane Extension
PDU Extension Big
UltraSite Support
UltraSite Optima Compact Outdoor ROC, 1+1+1, 32 HW-chs, Release 157890208
UltraSite Optima Compact Outdoor ROC, 1+1+1, 64 HW-chs, Release 2372
UltraSite Optima Compact Outdoor ROC 1+1+1, 96 HW-chs, Release 2296
TOTAL5784625041544ok
*) This solution is used for Outdoor Sites as per network plan attached above.
Installation Material-RNC
SummaryIncremental239
Cumulative2514
Phase 0Phase 1Phase 2
RNC239
Installation Material-BTS new sites & Metrosite
SummaryIncremental241358245
Cumulative241599844
Phase 0Phase 1Phase 2
BTS New sites203163177
Metrosite3819568
Installation Material-BTS existing sites
SummaryIncremental437354359
Cumulative4377911150
Phase 0Phase 1Phase 2
BTS (existing sites)437354359
This product is included in MNS Dimensioning.
Site
Site Dimensioning
Nokia shall display their dimensioning rules for each network element
Nokia shall fill in the summary cells as these are linked to the Dimensioning Output sheet and BoQ
Nokia shall dimension equipment not listed in the worksheet "Other Equipment"
Nokia shall link all values they are using (inside and outside this spreadsheet)
Nokia shall insert additional rows to include more detail
The site types in the table below refer to the performance description given in
Node B Sites
SummaryNew 3G SitesPhase 0Phase 1Phase 2Phase 3Phase 4
Number of Sites - Site Type 1- CBD51250
Number of Sites -Site Type 1-HDB106106104
Number of Sites - Site Type 1-Suburban463273
Number of Sites - Site Type 2 : In-Building Metrosite000
Number of Sites - Site Type 2 : In-Building 3 Mode000
3G Sites on Legacy Sites
Number of Sites - Site Type 1- CBD94450
Number of Sites -Site Type 1-HDB196196192
Number of Sites - Site Type 1-Suburban8558135
Number of Sites - Site Type 2 : In-Building Metrosite3819568
Number of Sites - Site Type 2 : In-Building 3 Mode265532
Number of Sites - Site Type 2 : In-Building MRT 3-mode3600
Reference from 'Node B Config'
Total CBD145700145700
Total HDB302302296302302296
Total Suburban1319020813190208
Total In-Building100250100100250100
Please refer to "Node B" sheet for number of sites and upgrades.
RNC Sites
SummaryNew 3G SitesPhase 0Phase 1Phase 2Phase 3Phase 4
Number of Sites - Site Type 1
Number of Sites - Site Type 2
3G Sites on Legacy Sites
Number of Sites - Site Type 11
Number of Sites - Site Type 2
+
=
Nokia:All RNC will be located with core network equipment
Radio output
Output Radio Network Dimensioning
All the links in this sheet refer to the dimensioning of individual items from the previous sheet.
This sheet will be used as the interface to the appropriate Bill of Quantities
Nokia MUST NOT make changes to the formats within this worksheet, as all the links are already implemented.
Time framePhase 0Phase 1Phase 2Phase 3Phase 4
Node B sites
New 3G Sites
Number of Sites - Site Type 1- CBD51250.00.00.0
Number of Sites -Site Type 1-HDB1061061040.00.0
Number of Sites - Site Type 1-Suburban4631730.00.0
Number of Sites - Site Type 2 : In-Building Metrosite0.00.00.00.00.0
Number of Sites - Site Type 2 : In-Building 3 Mode0.00.00.00.00.0
3G Sites on Legacy Sites
Number of Sites - Site Type 1- CBD94450.00.00.0
Number of Sites -Site Type 1-HDB1961961920.00.0
Number of Sites - Site Type 1-Suburban85581350.00.0
Number of Sites - Site Type 2 : In-Building Metrosite38195680.00.0
Number of Sites - Site Type 2 : In-Building 3Mode265532
Number of Sites - Site Type 2 : In-Building MRT/NEL360.00.0
Node B
New Indoor Sites Incremental1002501000.00.0
New Indoor Sites Cumulative1003504500.00.0
Indoor Site Upgrades Incremental0.00.03500.00.0
Indoor Site Upgrades Cumulative0.00.03500.00.0
New Outdoor Sites Incremental5784625040.00.0
New Outdoor Sites Cumulative5781,0401,5440.00.0
Outdoor Site Upgrades Incremental0.04478190.00.0
Outdoor Site Upgrades Cumulative0.04471,2660.00.0
Antennas, complete systems
Incremental9028636630.00.0
Cumulative9021,7652,4280.00.0
Feeders
Incremental0.00.00.00.00.0Part of Antennas
Cumulative0.00.00.00.00.0
Low Noise Receive Amplifier
Incremental0.00.00.00.00.0Part of Node B
Cumulative0.00.00.00.00.0
Mast Head Transmission Amplifier
Incremental0.00.00.00.00.0Part of Antennas
Cumulative0.00.00.00.00.0
Channels
16 kbps Incremental21,69648,992113,9200.00.0Part of Node B
16 kbps Cumulative21,69670,688184,6080.00.0
Nokia Node B
64 kbps Incremental0.00.00.00.00.0supports
64 kbps Cumulative0.00.00.00.00.016 kbps HW-chs.
For this reason all
144 kbps Incremental0.00.00.00.00.0HW-ch capacities
144 kbps Cumulative0.00.00.00.00.0are stated as
16 kbps.
384 kbps Incremental0.00.00.00.00.0
384 kbps Cumulative0.00.00.00.00.0
Carriers
Incremental1,9431,7401,6710.00.0Part of Node B
Cumulative1,9433,6835,3540.00.0
RNC Sites
New 3G Sites
Number of Sites - Site Type 10.00.00.00.00.0To be agreed
Number of Sites - Site Type 20.00.00.00.00.0separately with
StarHub
3G Sites on Legacy Sites
Number of Sites - Site Type 110.00.00.00.0
Number of Sites - Site Type 20.00.00.00.00.0
Phase 0Phase 1Phase 2Phase 3Phase 4
RNC
Incremental2390.00.0
Cumulative25140.00.0
Test Kit
Incremental0.00.00.00.00.0Not part of Nokia's portfolio
Cumulative0.00.00.00.00.0
OMC-R
Incremental0.00.00.00.00.0Part of MNS
Cumulative0.00.00.00.00.0
Site Support
Incremental5784625040.00.0
Cumulative5781,0401,5440.00.0
Installation Material-RNC
Incremental2390.00.0
Cumulative25140.00.0
Installation Material-BTS new sites & Metrosite
Incremental2413582450.00.0
Cumulative2415998440.00.0
Installation Material-BTS existing sites
Incremental4373543590.00.0
Cumulative4377911,1500.00.0
Nokia:All RNC will be located at one site together with the core network equipment
Traf Call Mix
TRAFFIC (CALL & APPLICATION MIX)
VOICE & CIRCUIT SWITCHED TRAFFIC
3G Service Land area CoveredPhase 0Phase 1Phase 2
sqkm.
CBD/Technopark252525
HDB/Urban85170170
Suburban/Rural10818330534
Indoor/MRT000
Total218378534
Voice SubscribersPhase 0Phase 1Phase 2
12.2kbps
CBD/Technopark68892317845622
HDB/Urban135084158780409
Suburban/Rural65535788288921
Indoor/MRT29471940742885
Total2400087750178125
Voice Messaging SubscribersPhase 0Phase 1Phase 2
14.4kbps
CBD/Technopark71192488959856
HDB/Urban1395944658105497
Suburban/Rural6773843108741208
Indoor/MRT30462084056265
Total2480094230233700
Video Conferencing SubscribersPhase 0Phase 1Phase 2
64kbps
CBD/Technopark0022117
HDB/Urban0038982
Suburban/Rural004018446
Indoor/MRT0020791
Total0086355
PACKET SWITCHED DATA TRAFFIC
SubscribersPhase 1Phase 2Phase 3
Dense Urban174774556782478
Urban1542149055109027
Suburban1495767420811
Rural56073270372685
Total40000135000285000
PS 16kbps UL, kbps/subPhase 1Phase 2Phase 3PS 16kbps DL, kbps/subPhase 1Phase 2Phase 3
kbps/subkbps/sub
Dense Urban0.17600.23720.2778Dense Urban0.01760.02370.0278
Urban0.39110.39540.3704Urban0.03910.03950.0370
Suburban0.19560.21750.2223Suburban0.01960.02170.0222
Rural0.23470.27680.2963Rural0.02350.02770.0296
PS 64kbps UL, kbps/subPhase 1Phase 2Phase 3PS 64kbps DL, kbps/subPhase 1Phase 2Phase 3
kbps/subkbps/sub
Dense Urban0.03200.06080.1134Dense Urban0.16810.22310.3821
Urban0.07120.10140.1513Urban0.37350.37180.5095
Suburban0.03560.05570.0817Suburban0.18670.20450.3057
Rural0.04270.07090.1210Rural0.22410.26030.4076
144 kbps UL, kbps/subPhase 0Phase 1Phase 2144 kbps DL, kbps/subPhase 0Phase 1Phase 2
Dense Urban0.00000.00000.0000Dense Urban0.00000.00000.0000
Urban0.00000.00000.0000Urban0.00000.00000.0000
Suburban0.00000.00000.0000Suburban0.00000.00000.0000
Rural0.00000.00000.0000Rural0.00000.00000.0000
PS 128kbps UL, kbps/subPhase 1Phase 2Phase 3PS 128kbps DL, kbps/subPhase 1Phase 2Phase 3
kbps/subkbps/sub
Dense Urban0.15960.55431.6394Dense Urban0.61850.00.0
Urban0.35470.92392.1859Urban1.37452.03610.0
Suburban0.17730.50811.3115Suburban0.68731.11990.0
Rural0.21280.64671.7487Rural0.82471.42533.1681
PS 384kbps UL, kbps/subPhase 1Phase 2Phase 3PS 384kbps DL, kbps/subPhase 1Phase 2Phase 3
kbps/subkbps/sub
Dense Urban0.00.00.0Dense Urban0.01.22172.9701
Urban0.00.00.0Urban0.00.03.9602
Suburban0.00.00.0Suburban0.00.02.3761
Rural0.00.00.0Rural0.00.00.0
NOTE : The link to "Nokia Annex - 3G Call & Applciation Mix.xls" for 64kbps has to be divided into two parts due to limitation the character length of Excel formula
64 kbps UL traffic (part 1)Phase 0Phase 1Phase 264 kbps DL traffic (part 1)Phase 0Phase 1Phase 2
CBDCBD
Urban/HDBUrban/HDB
SuburbanSuburban
Indoor/MRTIndoor/MRT
64 kbps UL traffic (part 2)Phase 0Phase 1Phase 264 kbps DL traffic (part 2)Phase 0Phase 1Phase 2
CBDCBD
Urban/HDBUrban/HDB
SuburbanSuburban
Indoor/MRTIndoor/MRT
CSVoice 12.2Phase 1Phase 2Phase 3
mE/sub
27.032.056.0
CSData 14.4Phase 1Phase 2Phase 3
mE/sub
4.08.010.0
CSData 64Phase 1Phase 2Phase 3
mE/sub
0.00.08.0
Nokia:Sum of traffic for the following services : SMS, Email without Attachments, Email with Text and Graphics Attachments, Web Browsing, E-Postcard, Text Download.
Nokia:Sum of traffic for the following services : , Email with Video/Audio Attachments, Audio/Video Download, Audio/Video Streaming, Collaborative Working, E-Payments, Interactive Games, Telemetry, Surveillance, Location-based Applications
Nokia:Sum of traffic for the following services : SMS, Email without Attachments, Email with Text and Graphics Attachments, Web Browsing, E-Postcard, Text Download.
Nokia:Sum of traffic for the following services : , Email with Video/Audio Attachments, Audio/Video Download, Audio/Video Streaming, Collaborative Working, E-Payments, Interactive Games, Telemetry, Surveillance, Location-based Applications
Nokia:The Suburban area in Phase 2 is divided into 90% and 10% ratio as per StarHub Rev. K requirement
Nokia:The Suburban area in Phase 2 is divided into 90% and 10% ratio as per StarHub Rev. K requirement
Nokia:Assume tarffic is evenly distributed in the Suburban area
Nokia:Assume traffic is evenly distributed in the Suburban area
Nokia:Assume traffic is evenly distributed in the Suburban area
Nokia:Assume traffic is evenly distributed in the Suburban area
Nokia:Assume traffic is evenly distributed in the Suburban area
Nokia:Assume traffic is evenly distributed in the Suburban area
Node B Config
The table below shows the Node B count for StarHub Rev. K Scenario 5 for each phase.
CumulativePhase 0, 9/2002Phase 1, 9/2003Phase 2, 9/2004
Config.Incr.CumHW Ch/Node BHW Ch/Node BIncr. HW ChCarriersConfig.Incr.CumHW Ch/Node BHW Ch/Node BIncr. HW ChCarriersConfig.Incr.CumHW Ch/Node BHW Ch/Node BIncr. HW ChCarriers
SitesSitesDimensionedOfferedOfferedSitesSitesDimensionedOfferedOfferedSitesSitesDimensionedOfferedOffered
CBDUltraSite Optima Compact ROC1111451450324,640435111702150649,120210
UltraSite Optima Compact CEC1110215019227,5200
HDBUltraSite Optima Compact ROC1113023020329,66490611130260406428,99290611129690009647,744888
SuburbanUltraSite Optima Compact ROC + MHA1111311310324,192393111902210322,8802701112084290326,656624
IndoorMetroSite Node B1100380321,2163811952330326,24019516830109621,44068
Inbuilding 3-mode Node B1115032480301162103219212115260961,82410
Inbuilding 3-mode Node B111470321,50414111149960321,568147111271230968,73681
SitesMacro57857821,6961,7344621,04048,9921,3865041,544113,9201,512
Indoor100100209250350354100450159
Total6781,9431,3901,7401,9941,671
Cumulative1,9433,683184,6085,354
Total HW -chs:184,608
Total Carriers:5,354
Nokia:The number of 2 sectors Inbuilding Node B in Phase 0 is as per StarHub Rev. K requirement.
Nokia:The number of 3 sectors Inbuilding Node B in Phase 0 is as per StarHub Rev. K requirement.
Nokia:The number of 2 sectors Inbuilding Node B in Phase 1 is as per StarHub Rev. K requirement.
Nokia:The number of 3 sectors Inbuilding Node B in Phase 1 is as per StarHub Rev. K requirement.
Nokia:The number of 2 sectors Inbuilding Node B in Phase 2 is as per StarHub Rev. K requirement.
Nokia:The number of 3 sectors Inbuilding Node B in Phase 2 is as per StarHub Rev. K requirement.
Nokia:The number of 1 sector Inbuilding Node B in Phase 0 is as per StarHub Rev. K requirement.
Nokia:The number of 1 sector Inbuilding Node B in Phase 1 is as per StarHub Rev. K requirement.
Nokia:The number of 1 sector Inbuilding Node B in Phase 2 is as per StarHub Rev. K requirement.
RNC Calculation Workingsheet
AreaVoice SubsBS Type#Sites (BS)Total Iub per siteTotal BS trafficto RNCTotal RNCTraffic (Mbps)Total Carriers# RNC LimitedCarriers# RNC LimitedProcessing Capacity#RNC Limited by NodeBRequired # of RNCRequired # of RNCs
(Mbps)Mbps
Phase 0198.47870.761.121.961.962
CBD6,8891111450.553.49
HDB13,5081113020.5107.58
Suburban6551111310.114.14
Indoor2,9471380.323.22
1115
11147
24,000678
Phase 1831.51,6031.554.714.024.715
CBD23,1781112151.5246.08
HDB41,5871116040.8374.40
Suburban3,5781112210.345.85
Indoor19,40712330.6165.17
1121
11196
87,7501390
Phase 23994.12,69614
CBD45,6221112156.31,010.18
HDB80,4091119002.91,964.15
Suburban9,2091114291.0314.63Addl TrafficAddl Carrier
Indoor42,88513012.1705.103145.4008.740.878.74
1126
111123
178,1251994
For Phase 0 & 1
RNC Iub capacity (max)196Mbits
RNC carrier capacity (max)1152Carriers
RNC Node B Capacity384Node B's
For Phase 2
RNC Iub capacity (max)400Mbits
RNC carrier capacity (max)2304Carriers
RNC Node B Capacity768Node B's
RNC Fill Rate90%
PhasesRNC 1RNC 2Total RNC
Config 1Config 2Config 3Config 4Config 5
Phase 00000202
Phase 10001405
Phase 200014914
RNC 2
ConfigThroughputAfter Load FactorCarriersAfter Load FactorNode BAfter Load Factor
14843.2384345.6128115.2
28576.5576518.4192172.8
3122109.8768691.2256230.4
4159143.1960864320288
5196176.411521036.8384345.6
Nokia:ROC has only 1 carrier.Refer to "Node B Config" worksheet for ROC or CEC BS types distribution in each region and phase.
Nokia:ROC has only 1 carrier.Refer to "Node B Config" worksheet for ROC or CEC BS types distribution in each region and phase.
Nokia:ROC has only 1 carrier.Refer to "Node B Config" worksheet for ROC or CEC BS types distribution in each region and phase.
RADIM Intro
Radio Network Dimensioning Tools (RADIM)RADIM NAVIGATION PAGE
1. Introduction
Radim is an excel spread sheet created by Nokia to provide traceability in dimensioning the Node Bs for StarHub 3G Node B dimensioning.
2. Program Structure
Radim is designed to be modular, the structure is as shown below :
3. User Interaction
1) Based on the "No. of Cells" calculated in the "Area Coverage Calculation" module (as shown above), the user would propose a minimal number of TRXes equal to the number of cells (ie. a 1+1+1 Node B configuration for all Node Bs) and enter this figure in
2) The user would then observe whether this number of TRXes will result in the calculated "UL, DL Cell Loading" and "Required Power/TRX (W)" that exceeds the target values. The average no. of HW Channels per Node B is calculated as well. Hence, in this wa
3) Since the spectrum availability is 10 MHz, the user has to note that if the "Proposed # of TRXes" are greater than a 2+2+2 Node B configuration for all Node Bs, then the "No. of Sites required for coverage" shall increase automatically to accommodate a
4) All the results calculated by the respective module eg. Cell Loading Calculation, HW Channel Calculation etc. are returned to the Control Panel for ease of observation.
CDB Link Budget
HDB Link Budget
Suburban Link Budget
RADIM CBD Phase 0
RADIM HDB Phase 0
RADIM Suburban Phase 0
RADIM Indoor Phase 0
RADIM CBD Phase 1
RADIM HDB Phase 1
RADIM Suburban Phase 1
RADIM Indoor Phase 1
RADIM CBD Phase 2
RADIM HDB Phase 2
RADIM Suburban Phase 2 (90%)
RADIM Indoor Phase 2
Input from Nokia Annex 3G - Dimensioning Rules (S2).xls(e.g. Eb/No,BS Height etc)
Input from "Link Budget" worksheets from respective region (eg. CBD, HDB, Suburban)
Input from "Traf Call Mix for Scenario1&2" worksheet (eg. Area size & traffic )
RADIM
No. of Sites & Configuration
Average Hardware Channel per Node B
UL & DL Cell Loading, Total Node B Tx Power
TRXs No. (User Input Manually)
HW Channel Calculation
Cell Loading Calculation
Required Transmit Power/TRX
Interfering Channel Calculation
Area Coverage Calculation
Traffic Input & Eb/No Table
System Design Parameter Input
Dimensioning Control Panel & Outputs
User Input Proposed # of TRXs
3G Demographics
Link Budget (Cell Range)
Initial #TRXes for a 1+1+1 site config
Add TRXes
If calculated DL cell loading exceeds requirement
If calculated transmit power exceeds BS power requirement
RADIM Suburban Phase 2 (10%)
Link Budget CBD
Link Budget CBD/Technopark
ParameterSpeech (12.2kbps)14.4kb/s LCD16kb/s UDD64kb/s LCD64kb/s UDD144kb/s UDD384kb/s UDD
UplinkDownlinkUplinkDownlinkUplinkDownlinkUplinkDownlinkUplinkDownlinkUplinkDownlinkU