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Buenos Aires, September 25Buenos Aires, September 25Buenos Aires, September 25Buenos Aires, September 25thththth, 2009, 2009, 2009, 2009
LTE goes aliveLTE goes aliveLTE goes aliveLTE goes alive
ContentContentContentContent
Standardization & Industry forums
LTE Drivers & Trends
© Nokia Siemens Networks Confidential – commercially not binding 2
LTE/SAE Technology Overview
Standardization & Industry forums
Solution & Products
Summary
Trends & DriversTrends & DriversTrends & DriversTrends & Drivers
© Nokia Siemens Networks Confidential – commercially not binding 3
Connectivity Scorecard 2009still potential to make better use of connectivity
United States 7.71United States 7.71United States 7.71United States 7.71
infrastructure usage & skills
ConsumerBusiness
Government
C B G C B G
Finland: 5.82
Sweden: 7.47
infrastructure usage & skillsC B G C B G
4 © Nokia Siemens Networks
infrastructure usage & skills
Germany: 5.37
infrastructure usage & skillsC B G C B G
infrastructure usage & skillsC B G C B G
The broadband future is already here -it’s just not evenly distributed.
www.connectivityscorecard.org
Spain: 3.49
infrastructure usage & skillsC B G C B G
France: 5.22
infrastructure usage & skillsC B G C B G
15
Broadband impact study 2009broadband is dead – long live broadband
+ 300$
+ 200$
+ 100$
+ $3Bn GDP �+ $20Bn GDP �
+ $2Bn GDP � + $18Bn GDP �
Impact on GDP per additional broadband line(s) per 100 individualsEstimated economic benefits from broadband penetration
GDP per individual
5 © Nokia Siemens Networks
Broadband still offers great opportunitiesgreat opportunitiesgreat opportunitiesgreat opportunities, with a productivity growth potential of up to 15%.
Sweden
+1line +5 lines +10
Germany Finland France
+ 0$+1line +5 lines +10 +1line +5 lines +10 +1line +5 lines +10
Governments have reacted appropriatelywith broadband stimulus initiatives
• Stimulate broadband investments
• Eliminate ‘broadband white spots’
• Enable the use of the
Fast surfing anywhere . European commission makes mobile Internet at the alp possibleSueddeutsche Zeitung08/25/2009
6 © Nokia Siemens Networks
• Enable the use of the digital dividend spectrum
We are fully committed and capable to support these broadband initiatives
We help Communication Service Providers build more valuable customer relationshipsmore valuable customer relationshipsmore valuable customer relationshipsmore valuable customer relationships
Efficiency Experience
Service
Flexible service creation and management
Customer and service specific experience
by improving efficiencyefficiencyefficiencyefficiency and experienceexperienceexperienceexperience
7 © Nokia Siemens Networks
Network
Towards the vision of an individual communication experience
Efficient, low-cost connectivity
Customer & content aware delivery
Challenges and OpportunitiesChallenges and OpportunitiesChallenges and OpportunitiesChallenges and Opportunities
100x trafficgrowth
User serviceexperience
Add valuebeyond bit-pipe
Reinventing theReinventing theReinventing theReinventing theconnected world connected world connected world connected world
© Nokia Siemens Networks Confidential – commercially not binding 8
growthexperience
EnvironmentalPerformance
Internet forthe next billion
5 Bn peopleconnected
Mobile Broadband FlatMobile Broadband FlatMobile Broadband FlatMobile Broadband Flat----rate tariffs rate tariffs rate tariffs rate tariffs
Mobile Broadband market todayMobile Broadband market todayMobile Broadband market todayMobile Broadband market todayHSDPA delivers traffic growth HSDPA delivers traffic growth HSDPA delivers traffic growth HSDPA delivers traffic growth –––– and Revenues !and Revenues !and Revenues !and Revenues !
MobileMobileMobileMobile----data traffic growthdata traffic growthdata traffic growthdata traffic growth
10 TB/day10 TB/day10 TB/day10 TB/dayOperator in Europe: Operator in Europe: Operator in Europe: Operator in Europe: Data Revenue +27% Data Revenue +27% Data Revenue +27% Data Revenue +27%
Operator in APAC:Operator in APAC:Operator in APAC:Operator in APAC:Data Revenue +29% Data Revenue +29% Data Revenue +29% Data Revenue +29%
Operator in Europe:Operator in Europe:Operator in Europe:Operator in Europe:Data Revenue +12%Data Revenue +12%Data Revenue +12%Data Revenue +12%
Operator in APAC:Operator in APAC:Operator in APAC:Operator in APAC:Data Revenue +31%Data Revenue +31%Data Revenue +31%Data Revenue +31%
5 TB/day5 TB/day5 TB/day5 TB/day
© Nokia Siemens Networks Confidential – commercially not binding 9
60 60 60 60 €€€€30 30 30 30 €€€€
Median flatrate Median flatrate Median flatrate Median flatrate tariff todaytariff todaytariff todaytariff today28282828€€€€ / month/ month/ month/ month
Total data revenues increased Total data revenues increased Total data revenues increased Total data revenues increased up to 30% Traffic growing by up to 30% Traffic growing by up to 30% Traffic growing by up to 30% Traffic growing by
350%350%350%350%
Source: Merill Lynch Global Wireless Matrix. Sep06-Sep07. Local Currencies.
Source: NSN analysis,
Jul’07 -> Jan ’08
Data revenues increased due to HSDPA and data flat ratesData revenues increased due to HSDPA and data flat ratesData revenues increased due to HSDPA and data flat ratesData revenues increased due to HSDPA and data flat rates
But traffic grows much faster But traffic grows much faster But traffic grows much faster But traffic grows much faster
� Networks must become more efficientNetworks must become more efficientNetworks must become more efficientNetworks must become more efficient
Data Revenue +12%Data Revenue +12%Data Revenue +12%Data Revenue +12%
Operator in APAC:Operator in APAC:Operator in APAC:Operator in APAC:Data Revenue +18% Data Revenue +18% Data Revenue +18% Data Revenue +18%
Traffic increase requires low cost/bit technologiesTraffic increase requires low cost/bit technologiesTraffic increase requires low cost/bit technologiesTraffic increase requires low cost/bit technologies
Traffic volumeTraffic volumeTraffic volumeTraffic volume
Revenue Revenue Revenue Revenue
Network cost Network cost Network cost Network cost (existing technologies)(existing technologies)(existing technologies)(existing technologies)
Profitability Profitability Profitability Profitability
© Nokia Siemens Networks Confidential – commercially not binding 10
Voice Voice Voice Voice dominateddominateddominateddominated
Data Data Data Data dominateddominateddominateddominated
TimeTimeTimeTime
Network cost Network cost Network cost Network cost (LTE)(LTE)(LTE)(LTE)
Price per MByte has to be reduced to remain profitablePrice per MByte has to be reduced to remain profitablePrice per MByte has to be reduced to remain profitablePrice per MByte has to be reduced to remain profitable
TrendsTrendsTrendsTrends
• I&C industry observes a growing trend towards an all-IP architecture
• Operators observe increase in wireless data usage
Device CapabilitiesDevice CapabilitiesDevice CapabilitiesDevice Capabilities
All IP TrendsAll IP TrendsAll IP TrendsAll IP Trends
Environmental AspectsEnvironmental AspectsEnvironmental AspectsEnvironmental Aspects
Wireless DataWireless DataWireless DataWireless Data
IP
© Nokia Siemens Networks Confidential – commercially not binding 11
• Wireless industry faces spectrum liberalization
• Subscribers go for predictable communication costs
• Ever increasing device capabilities are moving away from network capabilities
• Green technology for low power consumption
• Minimized changes on sites and antennas
Device CapabilitiesDevice CapabilitiesDevice CapabilitiesDevice Capabilities
SpectrumSpectrumSpectrumSpectrum
Environmental AspectsEnvironmental AspectsEnvironmental AspectsEnvironmental Aspects
Flat Rates
€
Source: NSN Market Report
5,000
10,000
15,000
20,000
Other segments
Broadband Wireless
LTE-Radio
TD-SCDMA
UTRAN
GERAN
3GPP ecosystem3GPP ecosystem3GPP ecosystem3GPP ecosystem
Technology considerations:Technology considerations:Technology considerations:Technology considerations:3GPP ecosystem is mainstream3GPP ecosystem is mainstream3GPP ecosystem is mainstream3GPP ecosystem is mainstream
© Nokia Siemens Networks Confidential – commercially not binding 12
0
2007 2008 2009 2010 2011 2012 2013mil. EUR
Broadband is here….325 radio customers in 133 countries
235 Commercial WCDMA Networks*
(Radio)
116
113
63
22 13
235 Commercial WCDMA Networks*
(Radio)
116
113
63
22 13
215 Commercial HSDPA Networks*
(Radio)
108
105
55
21 8
215 Commercial HSDPA Networks*
(Radio)
108
105
55
21 8
NSN
Ericsson
Huawei
Alcatel-Lucent/Nortel
Others
NSN
Ericsson
Huawei
Alcatel-Lucent/Nortel
Others
• *Source: GSA, Informa Telecoms & Media and 3G Americas – July 16, 2008
HSDPA Devices Launches - Cumulative
84
254
403
637
724805
0
100
200
300
400
500
600
700
800
900
October 6,
2006
April 3, 2007 October 22,
2007
April 3, 2008 July 21, 2008 September
7, 2008
GSA survey dates
ReReReRe----use ofuse ofuse ofuse of
• Sites and infrastructure
• Backhauling
• Frequency bands
Key benefits for operators and endKey benefits for operators and endKey benefits for operators and endKey benefits for operators and end----useruseruseruser
User experience User experience User experience User experience ���� ARPUARPUARPUARPUInvestment ProtectionInvestment ProtectionInvestment ProtectionInvestment Protection
HSPA HSPA LTEHSPA HSPA LTEHSPA HSPA LTEHSPA HSPA LTEevoevoevoevo
ThroughputThroughputThroughputThroughput LatencyLatencyLatencyLatency
HSPA HSPA LTEHSPA HSPA LTEHSPA HSPA LTEHSPA HSPA LTEevoevoevoevo
© Nokia Siemens Networks Confidential – commercially not binding 13
Scalable bandwidthScalable bandwidthScalable bandwidthScalable bandwidthLow cost per MbyteLow cost per MbyteLow cost per MbyteLow cost per Mbyte
3G HSPA HSPAevo LTE …3G HSPA HSPAevo LTE …3G HSPA HSPAevo LTE …3G HSPA HSPAevo LTE …
Cost per MbyteCost per MbyteCost per MbyteCost per Mbyte Optimized spectrum usageOptimized spectrum usageOptimized spectrum usageOptimized spectrum usage
2006 2008 2010 2012 2014 2016 2018 20202006 2008 2010 2012 2014 2016 2018 20202006 2008 2010 2012 2014 2016 2018 20202006 2008 2010 2012 2014 2016 2018 2020
900 MHz900 MHz900 MHz900 MHz
900 MHz900 MHz900 MHz900 MHz GSMGSMGSMGSM
or
GSMGSMGSMGSM UMTSUMTSUMTSUMTS
LTELTELTELTE
HSPA HSPA LTEHSPA HSPA LTEHSPA HSPA LTEHSPA HSPA LTEevoevoevoevo
Low Costs Low Costs Low Costs Low Costs
HSPA HSPA LTEHSPA HSPA LTEHSPA HSPA LTEHSPA HSPA LTEevoevoevoevo
Standardization & Industry forumsStandardization & Industry forumsStandardization & Industry forumsStandardization & Industry forums
© Nokia Siemens Networks Confidential – commercially not binding 14
Standardization & Industry forumsStandardization & Industry forumsStandardization & Industry forumsStandardization & Industry forums
NGMN Ltd. ConsortiumNGMN Ltd. ConsortiumNGMN Ltd. ConsortiumNGMN Ltd. Consortium
MISSIONMISSIONMISSIONMISSION
© Nokia Siemens Networks Confidential – commercially not binding 15
MISSIONMISSIONMISSIONMISSION
Operator community view on requirement in the decade beyond 2010.Operator community view on requirement in the decade beyond 2010.Operator community view on requirement in the decade beyond 2010.Operator community view on requirement in the decade beyond 2010.
VISIONVISIONVISIONVISION
• Provide a platform for innovation Provide a platform for innovation Provide a platform for innovation Provide a platform for innovation
• Target architecture will be an optimized Packet Switched (PS) network architectureTarget architecture will be an optimized Packet Switched (PS) network architectureTarget architecture will be an optimized Packet Switched (PS) network architectureTarget architecture will be an optimized Packet Switched (PS) network architecture
• Address key issues that underpin the success of mobile industry: Intellectual Property Rights (IPR), Address key issues that underpin the success of mobile industry: Intellectual Property Rights (IPR), Address key issues that underpin the success of mobile industry: Intellectual Property Rights (IPR), Address key issues that underpin the success of mobile industry: Intellectual Property Rights (IPR), interworking of different technologies (early interoperability tests), ...interworking of different technologies (early interoperability tests), ...interworking of different technologies (early interoperability tests), ...interworking of different technologies (early interoperability tests), ...
NGMN Ltd. status NGMN Ltd. status NGMN Ltd. status NGMN Ltd. status (as of 6/2009)(as of 6/2009)(as of 6/2009)(as of 6/2009)
19 ngmn Members:19 ngmn Members:19 ngmn Members:19 ngmn Members:
35 ngmn Sponsors:35 ngmn Sponsors:35 ngmn Sponsors:35 ngmn Sponsors:
© Nokia Siemens Networks Confidential – commercially not binding 16
3 ngmn Advisors:3 ngmn Advisors:3 ngmn Advisors:3 ngmn Advisors:
Requirements as stated by NGMN (NGMN_WP_Version3_0)
• Seamless Mobility
• Low Latency
• High Spectral Efficiency
Industry Liaisons Industry Liaisons Industry Liaisons Industry Liaisons ---- NGMN Ltd.NGMN Ltd.NGMN Ltd.NGMN Ltd.
© Nokia Siemens Networks Confidential – commercially not binding 17
• High Spectral Efficiency
• High E2E Throughput
• Quality of Service
• Security
• Integrated Network
• Inter-working
• Simplicity
• Low Total Cost of Ownership
• High Reliability
StandardizationStandardizationStandardizationStandardization3GPP Rel 8 LTE/SAE specifications finalized3GPP Rel 8 LTE/SAE specifications finalized3GPP Rel 8 LTE/SAE specifications finalized3GPP Rel 8 LTE/SAE specifications finalized
First release of LTE/SAE specifications (3GPP Rel 8) finalized E03/2009First release of LTE/SAE specifications (3GPP Rel 8) finalized E03/2009First release of LTE/SAE specifications (3GPP Rel 8) finalized E03/2009First release of LTE/SAE specifications (3GPP Rel 8) finalized E03/2009
• Stable implementation base reached (for FDD and TDD)Stable implementation base reached (for FDD and TDD)Stable implementation base reached (for FDD and TDD)Stable implementation base reached (for FDD and TDD)
• Only UE test specifications still to be completed (target: E12/2009)Only UE test specifications still to be completed (target: E12/2009)Only UE test specifications still to be completed (target: E12/2009)Only UE test specifications still to be completed (target: E12/2009)
Overall SAE Work PlanStatus: 04/2009
2007 2008 20092007 2008 2009
Overall LTE Work Plan: Common finalization dates for FDD and TDD
© Nokia Siemens Networks Confidential – commercially not binding 18
SA 3 Security aspects
SA 5Charging aspects
OAM aspects
F
F
SA2
2007 2008 2009Dec Mar Jun Sep Dec Mar
CT 3 aspects TR/TS
Specifications
CT1
CT 3
CT 4
Jun
F: Freezing
TR 29.804 on maintenance mode,
work shifted to TS work
F
F
CT 1 aspects TR/TS
Specifications
CT 4 aspects TR/TS
Specifications
TR 29.803 on maintenance mode, work
shifted to TS work
FF
F
Exceptions to be completed
Corrections based on stage 3 work completed end of March 2009
TR24.801 on maintenance mode,
work shifted to TS work CAT F corrections
still foreseen
CAT F corrections
still foreseen
CAT F corrections
still foreseen
F
RAN1
2007 2008 2009Dec Mar Jun Sep Dec Mar
Layer 1
Layer 2
UE eNB Tx/Rx
RRM core
P
A
A
A
A
RAN2
RAN4
RRC
Jun
P
Common env.
SignalingRAN5
RF Tx/Rx/Per Req.
A
A
eNB Test
P F
F
F AF
L1&Transport
P
A
ARAN3
S1/X2 AP
P F
F AF
F
F
A
RRM Test
F
F
A
RF RRM A
A: ApprovalP: Pre-Functional Freezing
F: Functional FreezingAF: ASN.1 Freezing
Test specification
Core radio specifications
Status: 04/2009
© Nokia Siemens Networks Confidential – commercially not binding 19
LTE/SAE Technology OverviewLTE/SAE Technology OverviewLTE/SAE Technology OverviewLTE/SAE Technology Overview
AccessAccessAccessAccessFlat Overall Architecture
• 2-node architecture
• IP routable transport architecture
LTE / SAE introduces the mechanism to fulfill the requirements of a next generation mobile network
AccessAccessAccessAccess CoreCoreCoreCore ControlControlControlControl
LTE BTS (eNodeB)
MMESAE-GW
IMS HLR/HSS
Basic Concepts / ArchitectureBasic Concepts / ArchitectureBasic Concepts / ArchitectureBasic Concepts / Architecture
© Nokia Siemens Networks Confidential – commercially not binding 20
Improved Radio Principles
• peak data rates [Mbps ] 173 DL , 58 UL
• Scalable BW: 1.4, 3, 5, 10, 15, 20 MHz
• Short latency: 10 – 20 ms
New Core Architecture
• Simplified Protocol Stack
• Simple, more efficient QoS
• UMTS backward compatible security
RF Modulation:RF Modulation:RF Modulation:RF Modulation:
• OFDMA in DL
• SC-FDMA in UL
MMEMMEMMEMME
SSSS----GW and PGW and PGW and PGW and P----GWGWGWGW
Key architectural concept.Key architectural concept.Key architectural concept.Key architectural concept.Flat and cost effective Mobile NetworkFlat and cost effective Mobile NetworkFlat and cost effective Mobile NetworkFlat and cost effective Mobile Network
AccessAccessAccessAccess CoreCoreCoreCore ControlControlControlControl
WWWW----CDMA BTSCDMA BTSCDMA BTSCDMA BTSRNCRNCRNCRNC
IMSIMSIMSIMS HLR/HSSHLR/HSSHLR/HSSHLR/HSS
2G BTS2G BTS2G BTS2G BTS BSCBSCBSCBSC
MSCMSCMSCMSCMGWMGWMGWMGW
SGSNSGSNSGSNSGSN GGSNGGSNGGSNGGSN
MGWMGWMGWMGW
GSM/EDGE/
UMTS/HSPA
LTE / SAE
© Nokia Siemens Networks Confidential – commercially not binding 21
IMSIMSIMSIMS HLR/HSSHLR/HSSHLR/HSSHLR/HSS
LTE BTS (eNodeB)LTE BTS (eNodeB)LTE BTS (eNodeB)LTE BTS (eNodeB) MMEMMEMMEMMESAESAESAESAE----GWGWGWGW
• New air I/F providing higher data throughputs
• LTE provides flexibility for spectrum re-farming and new spectrum
• LTE can operate in a number of different frequency bands
• Simplified, flat network architecture based on IP reduces operators’ cost per bit significantly
• Interworking with legacy systems is an integral part of service continuity
• Re-use of existing equipment as much as possible
Improved flexible radio technologyImproved flexible radio technologyImproved flexible radio technologyImproved flexible radio technology Simpler architecture for reduced OPEXSimpler architecture for reduced OPEXSimpler architecture for reduced OPEXSimpler architecture for reduced OPEX
LTE / SAE
Radio Access technology overviewRadio Access technology overviewRadio Access technology overviewRadio Access technology overview
TDMA FDMA CDMA OFDMA
f ff f
• Time Division • Frequency Division • Code Division • Frequency Division
• Orthogonal subcarriers
Multiple Access Multiple Access Multiple Access Multiple Access MethodsMethodsMethodsMethods
© Nokia Siemens Networks Confidential – commercially not binding 23
ffff ffff
t t
ffff
t t
ffff
User 1 User 2 User 3 User ..
The Beauties of LTEThe Beauties of LTEThe Beauties of LTEThe Beauties of LTE
Fast Link Fast Link Fast Link Fast Link AdaptationAdaptationAdaptationAdaptation
due to due to due to due to channel channel channel channel
behaviourbehaviourbehaviourbehaviour
Short TTI = 1 msShort TTI = 1 msShort TTI = 1 msShort TTI = 1 ms
Advanced Scheduling Time & Advanced Scheduling Time & Advanced Scheduling Time & Advanced Scheduling Time & Freq. (Frequency Selective Freq. (Frequency Selective Freq. (Frequency Selective Freq. (Frequency Selective
Scheduling)Scheduling)Scheduling)Scheduling)
TX RX
Tx Rx
MIMOChannel
scalablescalablescalablescalable
64QAM64QAM64QAM64QAMModulationModulationModulationModulation
© Nokia Siemens Networks Confidential – commercially not binding 24
Channel only changes amplitude and phase of subcarriers
Short TTI = 1 msShort TTI = 1 msShort TTI = 1 msShort TTI = 1 msTransmission time Transmission time Transmission time Transmission time
intervalintervalintervalinterval
DL: OFDMADL: OFDMADL: OFDMADL: OFDMA
UL: SCUL: SCUL: SCUL: SC----FDMAFDMAFDMAFDMA
scalablescalablescalablescalable
HARQ: Hybrid HARQ: Hybrid HARQ: Hybrid HARQ: Hybrid Automatic Repeat RequestAutomatic Repeat RequestAutomatic Repeat RequestAutomatic Repeat Request
1
2
21
NACK ACK
Rx Buffer
Combined decoding
LTE Radio principlesLTE Radio principlesLTE Radio principlesLTE Radio principles
• Power efficient uplink increasing battery lifetimeUplink:Uplink:Uplink:Uplink:
• Improved spectral efficiency
• Reduced interference
• Very well suited for MIMO
Downlink:Downlink:Downlink:Downlink:
OFDMA
Subchannels / Tones (each 15 kHz)
time
1 TTI
= 1ms
1 PRB (Physical Resource Block)
= 12 Subcarriers = 180 kHz
1 PRB = 2 Slots
= 2 * 0.5 ms
User 1
User 2
User 3
User ..
Subchannels / Tones (each 15 kHz)
time
1 TTI
= 1ms
1 PRB (Physical Resource Block)
= 12 Subcarriers = 180 kHz
1 PRB = 2 Slots
= 2 * 0.5 ms
User 1
User 2
User 3
User ..
© Nokia Siemens Networks Confidential – commercially not binding 25
• Power efficient uplink increasing battery lifetime
• Improved cell edge performance by low peak to average ratio
• Reduced Terminal complexity
Uplink:Uplink:Uplink:Uplink:
SC-FDMA
• Enabling peak cell data rates of 173 Mbps DL and 58 Mbps in UL *
• Scalable bandwidth: 1.4 / 3 / 5 / 10 /15 / 20 MHz also allows deployment in lower frequency bands (rural coverage, refarming)
• Short latency: 10 – 20 ms **
* At 20 MHz bandwidth, FDD, 2 Tx, 2 Rx, DL MIMO, PHY layer gross bit rate ** roundtrip ping delay (server near RAN)
MIMO Technology OverviewMIMO Technology OverviewMIMO Technology OverviewMIMO Technology Overview
Several antenna technologies are summarized under the term MIMO (Multiple Input /Multiple output):
• Single user DL MIMO
• DL MIMO - transmit diversity
• DL MIMO - spatial Multiplexing
© Nokia Siemens Networks Confidential – commercially not binding 26
• Multi-user MIMO
• Virtual MIMO (UL MIMO)
Core Technology overviewCore Technology overviewCore Technology overviewCore Technology overview
Evolved Packet Core (EPC)Evolved Packet Core (EPC)Evolved Packet Core (EPC)Evolved Packet Core (EPC)
PCRFHSS AAA
LTE Radio LTE Radio LTE Radio LTE Radio Access NetworkAccess NetworkAccess NetworkAccess Network
IMS
Services in Packet Services in Packet Services in Packet Services in Packet Data NetworkData NetworkData NetworkData Network
Operatorservices
3GPP Rel 8 network architecture:3GPP Rel 8 network architecture:3GPP Rel 8 network architecture:3GPP Rel 8 network architecture:Evolved Packet Core (simplified)Evolved Packet Core (simplified)Evolved Packet Core (simplified)Evolved Packet Core (simplified)
© Nokia Siemens Networks Confidential – commercially not binding 28
User planeControl plane
MMEMMEMMEMME
ServingServingServingServingGWGWGWGW
PDNPDNPDNPDNGWGWGWGW
Internet
Companyintranets
eNodeeNodeeNodeeNode----BBBB
SAESAESAESAE----GWGWGWGW
20
25
30
35
40
45
50U
se
r p
er
MH
z
Excellent Voice Spectral Efficiency in LTE Excellent Voice Spectral Efficiency in LTE Excellent Voice Spectral Efficiency in LTE Excellent Voice Spectral Efficiency in LTE Evolution from GSM to LTEEvolution from GSM to LTEEvolution from GSM to LTEEvolution from GSM to LTE
© Nokia Siemens Networks Confidential – commercially not binding 29
0
5
10
15
20
GSM EFR GSM
AMR
GSM
DFCA
WCDMA
CS voice
5.9 kbps
HSPA
VoIP/CS
12.2 kbps
HSPA CS
5.9 kbps
LTE VoIP
12.2 kbps
Use
r p
er
MH
z
15 x more users per MHz with LTE than with GSM EFR!
Performance OverviewPerformance OverviewPerformance OverviewPerformance Overview
Overview of 3GPP EvolutionOverview of 3GPP EvolutionOverview of 3GPP EvolutionOverview of 3GPP Evolution
DLDLDLDL
Th
eo
reti
cal P
ea
k R
ate
(un
cod
ed
(CR
=1
) g
ross
bit
e r
ate
)
326326326326
ULULULUL
MbpsMbpsMbpsMbps/cell/cell/cell/cell • 64 QAM 64 QAM 64 QAM 64 QAM orororor MIMOMIMOMIMOMIMO
I-HSPA• Flat architecture• Handover support• Higher # of RNC IDs
• 64 QAM + MIMO64 QAM + MIMO64 QAM + MIMO64 QAM + MIMO
40 40 40 40 –––– 60 60 60 60 ms
• 4x4 MIMO4x4 MIMO4x4 MIMO4x4 MIMO• 64 QAM UL64 QAM UL64 QAM UL64 QAM UL
• 2x2 MIMO2x2 MIMO2x2 MIMO2x2 MIMO• 16 QAM UL16 QAM UL16 QAM UL16 QAM UL
5,75,75,75,711,511,511,511,511,511,511,511,5
42424242
173173173173
14,414,414,414,4
28282828
58585858
84848484
61616161
© Nokia Siemens Networks Confidential – commercially not binding 31
LTE/SAEHSPA Evo (step2)HSPA Evo (step1)HSDPA/
HSUPA
I-HSPA (NSN system concept)(NSN system concept)(NSN system concept)(NSN system concept)
Rel. 6 Rel. 7 Rel. 8
Th
eo
reti
cal P
ea
k R
ate
(un
cod
ed
(CR
=1
) g
ross
bit
e r
ate
)
ULULULUL1) HSPA capacity values
normalized to 4 carriers (2 * 20MHz in total)
2) Single carrier
LTE values according to Nokia and Nokia Siemens Network simulations for NGMN performance evaluation report V1.3 (macro cell, full buffer, 500m ISD, pedestrian speed)
25 25 25 25 –––– 35 35 35 35 ms
~25 ms
2)
DLDLDLDL
ULULULUL
5,75,75,75,711,511,511,511,511,511,511,511,5
4x6,54x6,54x6,54x6,5
36363636
4x2,54x2,54x2,54x2,5
4x6,54x6,54x6,54x6,5
4x24x24x24x2
18181818
4x1,54x1,54x1,54x1,54x24x24x24x2
24242424
10 10 10 10 –––– 20 20 20 20 ms
Ave
rag
e C
ap
aci
ty
Ave
rag
e C
ap
aci
ty
Ave
rag
e C
ap
aci
ty
Ave
rag
e C
ap
aci
ty 11 11
)) ))
RTT RTT RTT RTT Round Trip Time
3GPP Rel. 63GPP Rel. 63GPP Rel. 63GPP Rel. 6 3GPP Rel. 73GPP Rel. 73GPP Rel. 73GPP Rel. 7 3GPP Rel. 83GPP Rel. 83GPP Rel. 83GPP Rel. 8
HSDPA/HSUPAHSDPA/HSUPAHSDPA/HSUPAHSDPA/HSUPA HSPA Evo HSPA Evo HSPA Evo HSPA Evo (step1)(step1)(step1)(step1) HSPA Evo HSPA Evo HSPA Evo HSPA Evo (step2)(step2)(step2)(step2)
•High speed DL/UL•16 QAM•HARQ•10/2 ms TTI
•Direct Tunnel•64 QAM (exor)•MIMO•Flat architecture•Handover support
•64 QAM+MIMO•OFDM based •SC-FDMA in UL•Dynamic LA•Flat architecture•IP backhauling
LTE/SAELTE/SAELTE/SAELTE/SAE2x2 MIMOUL:16 QAM
Performance: Overview of 3GPP Evolution Performance: Overview of 3GPP Evolution Performance: Overview of 3GPP Evolution Performance: Overview of 3GPP Evolution
IIII----HSPAHSPAHSPAHSPA (Nokia Siemens Networks system concept)(Nokia Siemens Networks system concept)(Nokia Siemens Networks system concept)(Nokia Siemens Networks system concept)
3GPP Rel. 93GPP Rel. 93GPP Rel. 93GPP Rel. 9
LTE/SAELTE/SAELTE/SAELTE/SAE4x4 MIMO (Rel8)UL:16 QAM (Rel8)
•SON enhancements•Emergency Call•Positioning support•Home eNB (Femto)•MBMS (tbd)
© Nokia Siemens Networks Confidential – commercially not binding 32
•Handover support•Higher # of RNC IDs
1) Uncoded (CR=1) gross bit rate at air I/F 3) single carrier2) HSPA capacity values normalized to 4 carriers (2 * 20MHz in total), LTE capacity according to
Nokia and Nokia Siemens Network simulations for NGMN performance evaluation report V1.3 (macro cell, full buffer, 500m ISD, pedestrian speed)
DL: 4 * 2.5
UL: 4 * 1.5
40404040----60606060
DL: 36
UL: 18
10101010----20202020
DL: 4 * 6.5
UL: 4 * 2
25252525----3535353525252525
DL: 4 * 6.5
UL: 4 * 2
25252525----3535353525252525
DL: 61
UL: 24
10101010----20202020
DL: 14.4
UL: 5.7
DL: 173
UL: 58 DL: 42
UL: 11.5 DL: 28
UL: 11.5
DL: 326
UL: 84 3)
Spectrum ConsiderationsSpectrum ConsiderationsSpectrum ConsiderationsSpectrum Considerations
Broadband Upgrade Paths Broadband Upgrade Paths Broadband Upgrade Paths Broadband Upgrade Paths ---- Europe: Europe: Europe: Europe: HSPA 900 MHz, LTE 1800&2600 MHzHSPA 900 MHz, LTE 1800&2600 MHzHSPA 900 MHz, LTE 1800&2600 MHzHSPA 900 MHz, LTE 1800&2600 MHz
• Early deployment of 4.2 MHz WCDMA with (I-)HSPA at 900 MHz for coverage to indoor and remote
• Early rollout of LTE in 2600 MHz
• Flexible phased re-farming of GSM 1800 MHz and UMTS 2100
2.6 GHz2.6 GHz2.6 GHz2.6 GHz
UMTS
WCDMA/(I-)HSPA2.1 GHz2.1 GHz2.1 GHz2.1 GHz
LTE
LTE
© Nokia Siemens Networks Confidential – commercially not binding 34
Flexi BTS allows for maximum flexibility in broadband upgrade path since choice Flexi BTS allows for maximum flexibility in broadband upgrade path since choice Flexi BTS allows for maximum flexibility in broadband upgrade path since choice Flexi BTS allows for maximum flexibility in broadband upgrade path since choice of WCDMA/Iof WCDMA/Iof WCDMA/Iof WCDMA/I----HSPA/LTE is defined by software download HSPA/LTE is defined by software download HSPA/LTE is defined by software download HSPA/LTE is defined by software download
MHz and UMTS 2100 MHz according to capacity needs, terminal penetration etc.
• Some GSM 900 and UMTS 2100 persists for legacy and incoming roaming
900 MHz900 MHz900 MHz900 MHz GSM
GSM1800 MHz1800 MHz1800 MHz1800 MHz
WCDMA/(I-)HSPA
LTE
LTE
Broadband Upgrade Paths Broadband Upgrade Paths Broadband Upgrade Paths Broadband Upgrade Paths –––– Latin America: Latin America: Latin America: Latin America: HSPA @ AWS, LTE 700, 2600 & 850 & 1900 MHzHSPA @ AWS, LTE 700, 2600 & 850 & 1900 MHzHSPA @ AWS, LTE 700, 2600 & 850 & 1900 MHzHSPA @ AWS, LTE 700, 2600 & 850 & 1900 MHz
• Early rollout of LTE in AWS (new frequency band) for capacity
• Flexible phased re-farming of 850 & 1900MHz for coverage in small steps 1.4/3/5 MHz
• 2,6 GHz deployment for
UMTS
2.6 GHz2.6 GHz2.6 GHz2.6 GHz
WCDMA/(I-)HSPAAWSAWSAWSAWS
1.7/2,11.7/2,11.7/2,11.7/2,1
LTE
LTE
700 MHz700 MHz700 MHz700 MHz LTE
© Nokia Siemens Networks Confidential – commercially not binding 35
Flexi BTS allows for maximum flexibility in broadband upgrade path since choice Flexi BTS allows for maximum flexibility in broadband upgrade path since choice Flexi BTS allows for maximum flexibility in broadband upgrade path since choice Flexi BTS allows for maximum flexibility in broadband upgrade path since choice of WCDMA/Iof WCDMA/Iof WCDMA/Iof WCDMA/I----HSPA/LTE is defined by software download HSPA/LTE is defined by software download HSPA/LTE is defined by software download HSPA/LTE is defined by software download
• 2,6 GHz deployment for capacity
• 700 MHz deployment after ASO for coverage
• Some GSM 850 & 1900 and UMTS AWS persists for legacy and incoming roaming
850 MHz850 MHz850 MHz850 MHz GSMWCDMA/(I-)HSPA LTE
700 MHz700 MHz700 MHz700 MHz LTE
1.9 GHz1.9 GHz1.9 GHz1.9 GHz GSMWCDMA/(I-)HSPA LTE
Visión unificada y convergente en Latinoamérica Visión unificada y convergente en Latinoamérica Visión unificada y convergente en Latinoamérica Visión unificada y convergente en Latinoamérica ~20 años~20 años~20 años~20 años
WiMAXWiMAXWiMAXWiMAXLTELTELTELTE WiMAXWiMAXWiMAXWiMAX
FWA FWA FWA FWA
LTELTELTELTELTELTELTELTE LTELTELTELTELTE
LTE
LTE
LTE
900 MHz900 MHz900 MHz900 MHz
LTELTELTELTE LTELTELTELTE LTELTELTELTE LTELTELTELTE
1800 MHz1800 MHz1800 MHz1800 MHzUITUITUITUIT
1.9 1.9 1.9 1.9 ---- 2.1GHz2.1GHz2.1GHz2.1GHzUITUITUITUIT
2.5GHz2.5GHz2.5GHz2.5GHzUITUITUITUIT
Competencia enCompetencia enCompetencia enCompetencia entodas las bandastodas las bandastodas las bandastodas las bandas
FWA FWA FWA FWA WiMAXWiMAXWiMAXWiMAX
3.5GHz, BWA en emergentes
UITDominante aDominante aDominante aDominante anivel mundialnivel mundialnivel mundialnivel mundial
700 MHz700 MHz700 MHz700 MHzGlobalGlobalGlobalGlobal
LTELTELTELTE
LTELTELTELTE
LTELTELTELTELTELTELTELTE
LTELTELTELTE
2.3GHz2.3GHz2.3GHz2.3GHzUITUITUITUIT
LTELTELTELTELTELTELTELTE
LTELTELTELTE
> 4 GHz> 4 GHz> 4 GHz> 4 GHzUITUITUITUIT
36 © Nokia Siemens Networks Medellin 10 de Julio de 2009 XII Cumbre Regulatel Ahciet
LATAMLATAMLATAMLATAM
FWA FWA FWA FWA WiMAXWiMAXWiMAXWiMAX
LTELTELTELTE
LTE
LTE
LTE
LTE
LTE
LTE
LTE
LTE
LTELTELTELTE
LTELTELTELTELTELTELTELTE LTELTELTELTE LTELTELTELTE
Celular mundial (economías de escala globales)Celular mundial (economías de escala globales)Celular mundial (economías de escala globales)Celular mundial (economías de escala globales)
LTE requiere de portadoras de 2 x 20MHz para permitir 150Mb/s LTE requiere de portadoras de 2 x 20MHz para permitir 150Mb/s LTE requiere de portadoras de 2 x 20MHz para permitir 150Mb/s LTE requiere de portadoras de 2 x 20MHz para permitir 150Mb/s y grandes volúmenes de datos en las próximas décadas.y grandes volúmenes de datos en las próximas décadas.y grandes volúmenes de datos en las próximas décadas.y grandes volúmenes de datos en las próximas décadas.
Deployment in Deployment in Deployment in Deployment in
legacy bandslegacy bandslegacy bandslegacy bands
La necesidad de espectro continuo para LTELa necesidad de espectro continuo para LTELa necesidad de espectro continuo para LTELa necesidad de espectro continuo para LTE
37 © Nokia Siemens Networks Medellin 10 de Julio de 2009 XII Cumbre Regulatel Ahciet
UMTS Forum White Paper: UMTS Forum White Paper: UMTS Forum White Paper: UMTS Forum White Paper:
Mobile Broadband Evolution:Mobile Broadband Evolution:Mobile Broadband Evolution:Mobile Broadband Evolution:
the roadmap from HSPA to LTEthe roadmap from HSPA to LTEthe roadmap from HSPA to LTEthe roadmap from HSPA to LTE
Febr. 2009Febr. 2009Febr. 2009Febr. 2009
ActualActualActualActual
2.5 2.57 2.69 GHz2.53 2.65
MMDS
(SCM)
MMDS
(SCM)
MMDS MMDS
MMDS MMDS MMDS MMDS
2.5GHz: Oportunidad de Latinoamérica para una 2.5GHz: Oportunidad de Latinoamérica para una 2.5GHz: Oportunidad de Latinoamérica para una 2.5GHz: Oportunidad de Latinoamérica para una alineación mundial del espectroalineación mundial del espectroalineación mundial del espectroalineación mundial del espectro
→→→→ WiMAX EEUU (TDD)WiMAX EEUU (TDD)WiMAX EEUU (TDD)WiMAX EEUU (TDD)
38 © Nokia Siemens Networks Medellin 10 de Julio de 2009 XII Cumbre Regulatel Ahciet
2.5 2.57 2.62 2.69 GHz
70 MHzFDD uplink
70 MHzFDD downlink
50 MHzTDD
70 MHz 70 MHz
2.5 2.69
Oper.1 Oper.2 Oper.3 Oper.1 Oper.2 Oper.3
Op
er. 4
50 MHzO
pe
r. 4
2.57 2.62
UIT /UIT /UIT /UIT /
CitelCitelCitelCitel
Oper.5 óOper.5 óOper.5 óOper.5 ó
MMDS DigitalMMDS DigitalMMDS DigitalMMDS Digital
Propio para Propio para Propio para Propio para
cualquier cualquier cualquier cualquier
tecnología IMT ! tecnología IMT ! tecnología IMT ! tecnología IMT !
(LTE, WiMAX)(LTE, WiMAX)(LTE, WiMAX)(LTE, WiMAX)
© Nokia Siemens Networks Confidential – commercially not binding 39
Solution & ProductsSolution & ProductsSolution & ProductsSolution & Products
LTE / SAE R8
Enabling flat broadband architecture
Leverage GSM/WCDMA handset baseI-HSPA
W-CDMA/
Evolution Path to LTEEvolution Path to LTEEvolution Path to LTEEvolution Path to LTEOpens up future service perspectives for new entrants and CDMA operatorsOpens up future service perspectives for new entrants and CDMA operatorsOpens up future service perspectives for new entrants and CDMA operatorsOpens up future service perspectives for new entrants and CDMA operators
90+% of world radio access market migrating to LTE
© Nokia Siemens Networks Confidential – commercially not binding 40
Greenfield / CDMA
GSM/(E)GPRS
W-CDMA/HSPA
TD-SCDMA
AccessAccessAccessAccess CoreCoreCoreCore ControlControlControlControl
NetAct/SONNetAct/SONNetAct/SONNetAct/SON
Benefit from our complete LTE/SAE Benefit from our complete LTE/SAE Benefit from our complete LTE/SAE Benefit from our complete LTE/SAE solution for each migration pathsolution for each migration pathsolution for each migration pathsolution for each migration path
GSM
WCDMA/HSPAiHSPA
NMSNMSNMSNMS
Mig
rati
on
pa
ths
Mig
rati
on
pa
ths
Mig
rati
on
pa
ths
Mig
rati
on
pa
ths
MMEMMEMMEMME MSS/NVSMSS/NVSMSS/NVSMSS/NVS HLR/HSSHLR/HSSHLR/HSSHLR/HSS
© Nokia Siemens Networks Confidential – commercially not binding 41
LTE BTS LTE BTS LTE BTS LTE BTS (eNodeB)(eNodeB)(eNodeB)(eNodeB)FDD & TDDFDD & TDDFDD & TDDFDD & TDD
iHSPA
CDMA2000
TD-SCDMA
TransportTransportTransportTransport
Mig
rati
on
pa
ths
Mig
rati
on
pa
ths
Mig
rati
on
pa
ths
Mig
rati
on
pa
ths
MMEMMEMMEMME
SAE GWSAE GWSAE GWSAE GWContent and ServiceContent and ServiceContent and ServiceContent and Service
MSS/NVSMSS/NVSMSS/NVSMSS/NVSIMSIMSIMSIMS
HLR/HSSHLR/HSSHLR/HSSHLR/HSS
BackhaulBackhaulBackhaulBackhaul
BackboneBackboneBackboneBackboneCopper or fiber
NSN provides a complete LTE solutionNSN provides a complete LTE solutionNSN provides a complete LTE solutionNSN provides a complete LTE solution
World Greenest and most Energy
Efficient Multi-Radio BTS
Unique NetAct OSS system for multi-
technology management
Unparalleled subscription
management and charging systems
Smooth Evolution from GSM / WCDMA /
Market leading MSS/IMS
Access Core Control
NetAct/SON
GSM
WCDMA/HSPAiHSPA
NMS
Mig
rati
on
pa
ths
MME MSS/NVSIMS
HLR/HSS
Access Core Control
NetAct/SONNetAct/SON
GSM
WCDMA/HSPAiHSPA
NMS
Mig
rati
on
pa
ths
MME MSS/NVSIMS
HLR/HSSHLR/HSS
© Nokia Siemens Networks Confidential – commercially not binding 42
Proven managed services, consulting,
and implementation
support
Mobile backhaul solution LTE
available today
from GSM / WCDMA / HSPA to LTE with SW
upgrade only
MSS/IMS
Flat network architecture of LTE
available today
LTE BTS (eNodeB)
FDD & TDD
CDMA2000
TD-SCDMA
TransportM
igra
tio
n p
ath
s
SAE GWContent and Service
Backhaul
Backbone
Copper or fiber
LTE BTS (eNodeB)
FDD & TDD
CDMA2000
TD-SCDMA
TransportM
igra
tio
n p
ath
s
SAE GWContent and Service
Backhaul
Backbone
Copper or fiber
Start today preparing for tomorrow! Start today preparing for tomorrow! Start today preparing for tomorrow! Start today preparing for tomorrow!
3GPP Rel 7 / HSPA3GPP Rel 7 / HSPA3GPP Rel 7 / HSPA3GPP Rel 7 / HSPA
Direct tunnelDirect tunnelDirect tunnelDirect tunnel
Internet
3GPP Rel 6 / HSPA3GPP Rel 6 / HSPA3GPP Rel 6 / HSPA3GPP Rel 6 / HSPA
Flexi Multiradio BTSFlexi Multiradio BTSFlexi Multiradio BTSFlexi Multiradio BTS RNCRNCRNCRNC SGSNSGSNSGSNSGSN Flexi ISN (GGSN)Flexi ISN (GGSN)Flexi ISN (GGSN)Flexi ISN (GGSN)
Internet
© Nokia Siemens Networks Confidential – commercially not binding 43
Direct tunnelDirect tunnelDirect tunnelDirect tunnel
3GPP Rel 7 / Internet HSPA3GPP Rel 7 / Internet HSPA3GPP Rel 7 / Internet HSPA3GPP Rel 7 / Internet HSPA
Direct tunnelDirect tunnelDirect tunnelDirect tunnel
Internet
Direct tunnelDirect tunnelDirect tunnelDirect tunnel
Flexi Multiradio BTSFlexi Multiradio BTSFlexi Multiradio BTSFlexi Multiradio BTS
SAE GatewaySAE GatewaySAE GatewaySAE Gateway
Internet
3GPP Rel 8 / LTE/SAE3GPP Rel 8 / LTE/SAE3GPP Rel 8 / LTE/SAE3GPP Rel 8 / LTE/SAE MMEMMEMMEMME
Simple upgrade to endSimple upgrade to endSimple upgrade to endSimple upgrade to end----totototo----end LTE/SAE solutionend LTE/SAE solutionend LTE/SAE solutionend LTE/SAE solution
Radio Products and Upgrade Radio Products and Upgrade Radio Products and Upgrade Radio Products and Upgrade SolutionsSolutionsSolutionsSolutions
Flexi Multiradio Base StationFlexi Multiradio Base StationFlexi Multiradio Base StationFlexi Multiradio Base Station70% less HW, 25% less site costs, 55% energy savings*
� Easy to install, small, modular, weatherproof
� SWSWSWSW----defineddefineddefineddefined: 1+1+1 LTE@ 20MHz,
4+4+4 WCDMA, 6+6+6 GSM
� Any combination of the 3 technologiescombination of the 3 technologiescombination of the 3 technologiescombination of the 3 technologies –concurrently ; Plug-and-Play with SON
� High output powerHigh output powerHigh output powerHigh output power: 3 x 60 W RF
© Nokia Siemens Networks Confidential – commercially not binding 45*compared to other vendors under same conditions
� High output powerHigh output powerHigh output powerHigh output power: 3 x 60 W RF
� Leading energy efficiencyLeading energy efficiencyLeading energy efficiencyLeading energy efficiency
Stacked Stacked Stacked Stacked on floor on floor on floor on floor or shelf or shelf or shelf or shelf
FeederFeederFeederFeeder----less sitesless sitesless sitesless sites
On wall or On wall or On wall or On wall or polepolepolepole
Hidden Hidden Hidden Hidden sitessitessitessites
BTS or BTS or BTS or BTS or 19” 19” 19” 19” cabinetscabinetscabinetscabinets
At base of At base of At base of At base of mast or mast or mast or mast or towertowertowertower
On top On top On top On top of mast of mast of mast of mast or toweror toweror toweror tower
Flexi BTS Flexi BTS Flexi BTS Flexi BTS –––– deploy anywhere, everywheredeploy anywhere, everywheredeploy anywhere, everywheredeploy anywhere, everywhere
BrazilBrazilBrazilBrazilFinlandFinlandFinlandFinland
----30303030°CCCC
© Nokia Siemens Networks Confidential – commercially not binding 46
+46+46+46+46°CCCCUAEUAEUAEUAE
JapanJapanJapanJapan
Technology Award + Green Network AwardTechnology Award + Green Network AwardTechnology Award + Green Network AwardTechnology Award + Green Network Award
Flexi Flexi Flexi Flexi MultiradioMultiradioMultiradioMultiradio
same HW: 2G, 3G + LTE same HW: 2G, 3G + LTE same HW: 2G, 3G + LTE same HW: 2G, 3G + LTE
70% less HW 70% less HW 70% less HW 70% less HW
25% less site costs 25% less site costs 25% less site costs 25% less site costs
50% energy saved50% energy saved50% energy saved50% energy saved
© Nokia Siemens Networks Confidential – commercially not binding 47
Best Technology AdvanceBest Technology AdvanceBest Technology AdvanceBest Technology Advance
Outstanding Environmental Outstanding Environmental Outstanding Environmental Outstanding Environmental Contribution Winner Contribution Winner Contribution Winner Contribution Winner
Green Network Hardware Green Network Hardware Green Network Hardware Green Network Hardware
and and and and
Infrastructure Winner 2009Infrastructure Winner 2009Infrastructure Winner 2009Infrastructure Winner 2009
Flexi Multiradio BTS SiteFlexi Multiradio BTS SiteFlexi Multiradio BTS SiteFlexi Multiradio BTS Site
• Three sector site solution 1+1+1
– Multimode System Module
– 3-sector RF Module 3 x 60 W
� Multimode HW available since Q3/2008 and SW-upgradeableto LTE!
The most cost and size optimized 3-sector site
© Nokia Siemens Networks Confidential – commercially not binding 48
to LTE!
Multimode System Module
3-sector RF Module
Complete Outdoor BTS (DC powered)
•Size: 6U high
•Volume: 50 liters
•Weight: < 50 kg
Size Comparison
Flat & most cost efficient technologyFlat & most cost efficient technologyFlat & most cost efficient technologyFlat & most cost efficient technology
• Cutting-edge performance
• Investment protection, re-farming
• Cellular broadband evolution path
BestBestBestBest----inininin----class eNB: Flexi Multiradio class eNB: Flexi Multiradio class eNB: Flexi Multiradio class eNB: Flexi Multiradio
•
LTE & Radio Products LTE & Radio Products LTE & Radio Products LTE & Radio Products
© Nokia Siemens Networks Confidential – commercially not binding 49
• Up to 120W / sector
• Lowest power consumption, Green BTS
• Ethernet transport
• HW since Q3/08, SW load only
• Concurrent mode GSM-HSPA-LTE,Flexible capacity split, spectrum usage
• Deployability .. fits everywhere
Best Technology Advance Winner 2009Best Technology Advance Winner 2009Best Technology Advance Winner 2009Best Technology Advance Winner 2009
LTE / SAE OperabilityLTE / SAE OperabilityLTE / SAE OperabilityLTE / SAE Operability
“Self organizing” means tasks are automated“Self organizing” means tasks are automated“Self organizing” means tasks are automated“Self organizing” means tasks are automated
NSN’s position
• Configure & optimize network automatically
Self Organizing Networks Self Organizing Networks Self Organizing Networks Self Organizing Networks ---- SONSONSONSON
© Nokia Siemens Networks Confidential – commercially not binding 51
• Configure & optimize network automatically
• Allow operator to be final control instance
• SON goes beyond LTE
• SON starts a paradigm shift how to operate a network
SON has key operational benefitsSON has key operational benefitsSON has key operational benefitsSON has key operational benefits
• Flexibility in logistics (eNB not site specific)
• Reduced site /
• Increased network quality and perform.
• Parameter optimization
• Error Self-detection and mitigation
• Speed up maintenance
SelfSelfSelfSelf----HealingHealingHealingHealingSelfSelfSelfSelf----OptimizationOptimizationOptimizationOptimizationSelfSelfSelfSelf----ConfigurationConfigurationConfigurationConfiguration
© Nokia Siemens Networks Confidential – commercially not binding 52
• Reduced site / parameter planning
• Simplified installation - less prone to errors
• No / min. drive-tests
• Faster roll-out
• Parameter optimization
• Reduced maintenance, site visits
• Speed up maintenance
• Reduce outage time
NSN on Top of SON researchNSN on Top of SON researchNSN on Top of SON researchNSN on Top of SON research
• Key roles in current SON research projects in Key roles in current SON research projects in Key roles in current SON research projects in Key roles in current SON research projects in
SOCRATESSOCRATESSOCRATESSOCRATES
SSSSelfelfelfelf----OOOOptimisation and selfptimisation and selfptimisation and selfptimisation and self----CCCConfiguonfiguonfiguonfiguRATRATRATRATion in wirelion in wirelion in wirelion in wirelESESESESs s s s networksnetworksnetworksnetworks
4WARD4WARD4WARD4WARD
Future O&M, Monitoring & Future O&M, Monitoring & Future O&M, Monitoring & Future O&M, Monitoring & Optimization as embedded Optimization as embedded Optimization as embedded Optimization as embedded capabilitiescapabilitiescapabilitiescapabilities
short term mid / long term
© Nokia Siemens Networks Confidential – commercially not binding 53
Self Optimizing Networks Making use of experts knowledge and approved
planning algorithms for automated network
optimisation
May 21st 2003, Nice, FranceDierk Blechschmidt,
SIEMENS AG
• Key roles in current SON research projects in Key roles in current SON research projects in Key roles in current SON research projects in Key roles in current SON research projects in industryindustryindustryindustry
• long and extensive history on network long and extensive history on network long and extensive history on network long and extensive history on network optimizationoptimizationoptimizationoptimization
wide internal research• Automated deployment of LTE BTS
• LTE Security architecture
• Data management
• Real-time performance management
Rapporteurships in 3GPP
100
150
200
250
NSN and Nokia NSN and Nokia NSN and Nokia NSN and Nokia ---- driver in 3GPPdriver in 3GPPdriver in 3GPPdriver in 3GPP
Rapporteur ships in 3GPPRapporteur ships in 3GPPRapporteur ships in 3GPPRapporteur ships in 3GPP
NSN and Nokia make 23% of all 3GPP rapporteours
NSN and Nokia make 23% of all 3GPP rapporteurs
© Nokia Siemens Networks Confidential – commercially not binding 54
0
50
Nok
ia S
iem
ens
Net
wor
ksEric
sson
Alcat
el-L
ucen
tH
uaw
eiN
okia
Vodaf
one
Qua
lcom
mETSI
Mot
orol
aT-M
obile
Chi
na M
obile
Nor
tel
Una
ssig
ned
Res
earc
h In
Mot
ion
NECKTF
Telia
Soner
a
Franc
e Tel
ecom
Gem
alto
Samsu
ng TIMFuj
itsu
Telef
onic
aC
ATTIP
Wire
less
Doc
omo
Telco
rdia
ZTEIn
terd
igita
lLG
AT&TNSN’s positionNSN’s positionNSN’s positionNSN’s position
• most rapporteurs of working groupsmost rapporteurs of working groupsmost rapporteurs of working groupsmost rapporteurs of working groups
• leading engagement in 3GPP SONleading engagement in 3GPP SONleading engagement in 3GPP SONleading engagement in 3GPP SONrapporteurs rapporteurs rapporteurs rapporteurs
� however: 3GPP leaves concepts and however: 3GPP leaves concepts and however: 3GPP leaves concepts and however: 3GPP leaves concepts and implementation widely OPENimplementation widely OPENimplementation widely OPENimplementation widely OPEN
© Nokia Siemens Networks Confidential – commercially not binding 55
SummarySummarySummarySummary
Taking the lead in network migration towards LTETaking the lead in network migration towards LTETaking the lead in network migration towards LTETaking the lead in network migration towards LTE
LTE/SAE launch
LTE/SAE
Volume deployments
Operator servicemigration to LTE/SAE
2011201120112011----
56 © Nokia Siemens Networks
LTE/SAE launch
LTE proof of concept / demos
• LTE lab and LTE lab and LTE lab and LTE lab and field testsfield testsfield testsfield tests
• Flexi Multiradio BTS Flexi Multiradio BTS Flexi Multiradio BTS Flexi Multiradio BTS (shipping) (shipping) (shipping) (shipping)
• Preparation flat Preparation flat Preparation flat Preparation flat network architecturenetwork architecturenetwork architecturenetwork architecture
• EndEndEndEnd----totototo----end LTE / SAE end LTE / SAE end LTE / SAE end LTE / SAE supportsupportsupportsupport
• IOTsIOTsIOTsIOTs
• LTE/SAE launchLTE/SAE launchLTE/SAE launchLTE/SAE launch
• LTE capable devices in LTE capable devices in LTE capable devices in LTE capable devices in volume deliveriesvolume deliveriesvolume deliveriesvolume deliveries
• LTE rollLTE rollLTE rollLTE roll----out for out for out for out for coverage and coverage and coverage and coverage and capacitycapacitycapacitycapacity
2008200820082008
2009200920092009
2010201020102010
• Volume LTE rollVolume LTE rollVolume LTE rollVolume LTE roll----out with out with out with out with full coveragefull coveragefull coveragefull coverage
• Gradual migration of Gradual migration of Gradual migration of Gradual migration of cellular voice services cellular voice services cellular voice services cellular voice services to LTEto LTEto LTEto LTE
57 © Nokia Siemens Networks
58 © Nokia Siemens Networks
Thank YouThank YouThank YouThank You