4g - bringing new mobile bro adband paradigms - cicomra. d. rakiti… · nsn lte docomo lte pcmcia...
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4G - Bringing new mobile broAugust, 2011g
Demetrio RakitinHead of LTE Sales LAT
© Nokia Siemens Networks
Head of LTE Sales LAT
oadband paradigms
Strong momentum in Mobile Bro
• Over 5.000 million mobile subscriptions, today ...• where +700 million are mobile broadband (50%where 700 million are mobile broadband (50%
• Global LTE susbscribers will reach 300 million by 20• Asia to have 129 million LTE subs by 2015 (4• Americas to reach 12 million LTE subs by 20
• Mobile internet users will overtake fixed internet useyears
© Nokia Siemens Networks
Source: GSA, Wireless Intelligence Dec2010 and NSN BI
years
Mobile Broadband: includes all WCDMA subscribers including HSP
oadband
% yoy growth)% yoy growth)
015 (100%)43%)15 (4%)
ers in 2-3
PA
The Present of mobile communic
Mobility, broadband, and new device technology change the way
News, inanywherdevice technology change the way
people connect and communicate
AugmentedAugmented reality
© Nokia Siemens Networks
New subscriptions and revenu
cations is all about applicationsCommunities sharingCommunities, sharing
nformation re
LocationLocation
Business on the move, email, Skype, e-meeting
Music and entertainment
ue are a huge opportunity
Business opportunity: The Clout’s already herey
Photosclo
Video in the cloud
Music in the cloud
Subscriber exOn Sep 7th, Netflix will anounce,
© Nokia Siemens Networks
that it is coming to Argentina.
ud
Shopping / stuff in the cloud
Apps / documents in
the clouds in the oud
pectation
Security SolutionsHigh-quality, wireless broadband conn
t l l b k tcontrol, also as back-up system
Security SolutionsSecurity Solutions
nectivity for remote connectivity and
Metering applicationsHigh-quality, wireless broadband connd t i iti (SCADA)data acquisition (SCADA)
Industry-specific seri i ti
Think about:
irrigation, power m
Smart grids
nectivity for supervisory control &
rvice support (oil & gas, water / t i )metering)
Logistics applicationsHigh-quality, wireless broadband conn
d i d kfland improved workflow
Logistics (inventory, work-flow)Think about:
Tracking high value-goodsNavigation
Remote assistance, technical support, m
nectivity for logistics
maintenance
Bandwidth requirement when allthe same broadband connection
© Nokia Siemens Networks
Source: Arthur D Little analisys
l the services are delivered overn
LTE user devicesEcosystem growing faster thany g g
… devi161 LTE devices h b
64% increasecompared to
HTC ThundeLTE+CDMA
HTC Sense, Skype w
have been announced by 45 suppliers(GSA, July 29, 2011)
compared toMarch 2011
Motorola XOLTE+WiFi (2Q
Android 3.0 Hone
… devices launched in 2010
(GSA, July 29, 2011)
Huawei, 2G, 3G, LTE multimode (Qualcomm-based)Tele 2 Sweden
Samsung B3730, TeliaSonera, multimode Fully integrated in NSN LTE
Docomo LTEPCMCIA Card
Qualcomm-based multimode LTE terminals – commercial availability expected in 4Q10
Samsung Craft LTE/CDMA Samsung Sequans TD-LTE trial
LG single mode trial device Fully integrated in NSN LTE
LG Adrenaline, ATT, multimode
… and new se
Samsung Craft, LTE/CDMA, MetroPCS
Sa su gTD-LTEprototype Fully integrated in NSN LTE
Sequans TD-LTE trial device
Nokia LTE prototypemodem RD-3
Cat. 3 USB-modems launched during 2010 LTE in
© Nokia Siemens Networks
Cat. 3 USB modems launched during 2010 LTE in
Smartphones account for 48% of terminal vol
n with any previous technologyy p gy
ces announced by Verizon Wireless at CES for 1H2011
erboltA with video
LG RevolutionLTE+CDMA
Android 2.2, hot spot capability
Moto Droid BionicLTE+CDMA
Android , See What I See Video
Samsung smartphoneLTE+CDMA Android 2.2
Compaq CQ10-688nrLTE+CDMA
OOMQ/11) eycomb
Samsung GalaxyLTE+CDMA, Android 2.2
Novatel MiFi 4510LLTE+CDMA WiFi
Samsung Mobile HotspotLTE+CDMA WiFi
HP Pavilion dm1-3010nrLTE+CDMA
for egments Cisco Cius Business Tablet
LTE-capableNetgear MBR1000
LTE+CDMA
4Home monitoring solution
Ionicis home monitoring & control GW
BL HealthcareTCx-I terminal with LTE
for HD-video enabled telemedicine
Cradlepoint6 different router/adapter
models with Pantech UML290
Cisco ISR2 G2 WAN-cardLTE-capable card to routers
for small and medium enterprises
SierraWireless MC7750LTE+CDMA embedded module Onstar car solution
e.g. video over LTE
SerComm LTE-enabled IP camera
NVIDIA and Acer tabletsEA’s Rockband
multiplayer onlinegaming over LTE
smartphones, notebooks, tablets, MiFi, … during 2011smartphones, notebooks, tablets, MiFi, … during 2011
lume sales in 1H11 in Argentina. Source: Carrier & Asoc
The ten LTE devices announced
HTC ThunderboltLTE+CDMA
TC Sense, Skype with video
LG RevolutionLTE+CDMA
Android 2.2, hot spot capability
Moto DrLTE+
Android , See
Motorola XOOMNovatel MiFi 4510L
LTE+CDMA WiFi
© Nokia Siemens Networks
Motorola XOOMLTE+WiFi (2Q/11)
Android 3.0 HoneycombSamsung Galaxy
LTE+CDMA, Android 2.2
by Verizon @ CES 2011
roid Bionic+CDMA What I See Video
Samsung smartphoneLTE+CDMA Android 2.2
Compaq CQ10-688nrLTE+CDMA
Samsung Mobile HotspotLTE+CDMA WiFiLTE CDMA WiFi
HP Pavilion dm1-3010nrLTE+CDMA
nitial LTE Terminal Categories
Class 1 Class 2
Peak rate DL/UL
RF bandwidth
10/5 Mbps 50/25 Mbps
20 MHz 20 MHz
Modulation DL
Modulation UL
64 QAM 64 QAM
16 QAM 16 QAMModulation UL
Rx diversity
16 QAM 16 QAM
yes yes
MIMO DL optional 2 x 2
© Nokia Siemens Networks
Class 5Class 3 Class 4
s 100/50 Mbps 150/50 Mbps 300/75 Mbps
20 MHz 20 MHz 20 MHz
64 QAM 64 QAM 64 QAM
16 QAM 16 QAM 64 QAM16 QAM 16 QAM 64 QAM
yes yes yes
2 x 2 2 x 2 4 x 4
Smartphones will soon be the mmarkets
100
Smartphone vs non-s2009-2015
e80
100
omer
bas
e
More than 50% of
40
60
on o
f cus
toMore than 50% of US handsetshipments will besmartphones by
20
40
pene
trat
io2012
Source: In-Stat, Jan 2011
02009 2010
% p
5 © Nokia Siemens Networks
Source: Arthur D Little, 2010
ajority of phones in mature
smartphone penetration in Europe,
2011 2012 2013 2014 2015
Non-smartphones
Smartphones
Laptops drive data traffic, but thsmartphone users globallyp g y
25
Mobile Internet traffic [ExaByte/year] [1018 Byte/year]
15
20Mobile LaptopSmartphones
Mobile Internet access
5
10
0 2008 2009 2010 2011 2012 2013 2014 2015
Source: Nokia Siemens Networks 2010
T-Mobile GER and Elisa FIN report average consumer dongle usage of: 2GB/month
© Nokia Siemens Networks
2009 2010
Sources: Nokia Siemens Networks, Informa, tietokone.fi, TeliaSonera 20
ere are far more
Telia Sonera in Finland reports average monthly traffic:Nokia E71 – 40 MB
2010: Informa estimates that 65% of global mobile data traffic is generated by smartphonesNokia N97 – 105 MBApple iPhone – 310 MBAverage traffic per user in TeliaSonera:375 MB per month (3G smartphone) 5 GB per month (3G dongle)15 GB per month (LTE dongle)
TeliaSoneramobile
1 billion broadbandtraffic grew10 times in years
2011 2012 2013 2014
010, Gigaom Nov 2010, Elisa May 2011
A hint of what’s coming
Monthly data traffic by device type, Novemb
12
15
med
, GB
14.9 GB
9
a co
nsum
3
6
onth
ly d
at
5
0Fixed data traffic
(Cisco)
Mo
Smartphonedata traffic
(Telia Sweden)
Dodata
(Telia
375 MB
© Nokia Siemens Networks
Source: gigaom.com, November 2010
(Telia Sweden) (Telia
ber 2010
15 GB
5 GB
onglea trafficSweden)
LTE dongle data traffic
(Telia Sweden)Sweden) (Telia Sweden)
Decoupling traffic volume from n
Traffic volumeMobile networktraffic and costs
Re
Pro
LTus
Voice dominated Data dominated
us
9 © Nokia Siemens Networks
Source: Light Reading (adapted)
network cost
e Network cost (non-Broadband technologies)
LTE reduces the cost/Mb
evenue
ofitability
the cost/Mb
Network cost (LTE)y
TE improves ser experience
d
Time
ser experience
LTE and LTE-A data rate evolutioDesign goals for LTE:Design goals for LTE:
– 200 simultaneous users per every 5MHz spectrum,– Latency 10-20ms,– Optimal cell size of 5 km, 30 km with reasonable perform– Interwoking with legacy systems like GSM and WCDMA.g g y y
3GPP R103GPP R11+
73 (326) Mbps
3GPP R83GPP R10
1 Gbps
MIMO 8x8H MIMO 2 2 (4 4)Hz + MIMO 2x2 (4x4)
58 (86) Mbps500 Mbps
MIMO 8x8MHz + MIMO 2x2 (4x4)
© Nokia Siemens Networks
LTE-A
MHz MIMO 2x2 (4x4)
on
mance, and up to 100 km supported with acceptable performance,
•Design goals for LTE-A:100MHz bandwidth (non-contiguous)1Gbps slow mobility / 100Mbps high mobilityUL up to 500MbpsUL up to 500MbpsCo-ordinated multipoint (better perf. at cell edge)Reduced latencyBackwards compatibility with LTE and othermulti-band carrier aggregation
•Availability expected for 2013-2015 time frame
LTE spectrum & ecosystem (31 b
FDD LTE• Early FDD LTE ecosystem mainly building on
2600 (Europe, China, APAC)2100 (Japan)1800 (GSM refarming)1700/2100 AWS (North America)1700/2100 AWS (North America)1600 (US – wholesale)800 digital dividend (Europe, APAC)Upper 700 MHz (Verizon)L 700 MH B/C (AT&T)Lower 700 MHz, B/C (AT&T)
TDTD--LTELTE• Early TD-LTE ecosystem
2300 (India, APAC, China)2600 (E Chi ? USA ?)
© Nokia Siemens Networks
2600 (Europe, China ?, USA ?)
bands !!!)Band MHz Uplinks MHz Downlink MHz RegionBand MHz Uplinks MHz Downlink MHz Region1 2x60 1920-1980 2110-2170 FDD UMTS core2 2x60 1850-1910 1930-1990 FDD US PCS3 2x75 1710-1785 1805-1880 FDD 18004 2x45 1710-1755 2110-2155 FDD US AWS5 2x25 824-849 869-894 FDD US 8507 2x70 2500-2570 2620-2690 FDD 26007 2x70 2500 2570 2620 2690 FDD 26008 2x35 880-915 925-960 FDD GSM 9009 2x35 1749-1784 1844-1879 FDD Japan, Korea 170010 2x60 1710-1770 2110-2170 FDD Extended AWS11 2x25 1427-1452 1475-1500 FDD Japan 150012 2x18 698-716 728-746 FDD US 700 MHz Lower (Band A,B,C)13 2x10 777-787 746-756 FDD US 700 MHz Upper (Band C)pp ( )14 2x10 788-798 758-768 FDD US 700 MHz Upper (Band D+)17 2x12 704-716 734-746 FDD US 700 MHz Lower (Band B, C)18 2x15 815-830 860-875 FDD Japan 80019 2x15 830-845 875-890 FDD Japan 80020 2x30 832-862 791-821 FDD EU Digital Dividend21 2x15 1448-1463 1496-1511 FDD Japan23 2x20 2000-2020 2180-2200 FDD S-band24 2x34 1626-1660 1525-1559 FDD US25 2x65 1850-1915 1930-1995 FDD US, extended PCS33 1x20 1900-1920 1900-1920 TDD UMTS core TDD34 1x15 2010-2025 2010-2025 TDD UMTS core TDD35 1x60 1850-1910 1850-1910 TDD US (TDD alternative to FDD)36 1 60 1930 1990 1930 1990 TDD US (TDD lt ti t FDD)36 1x60 1930-1990 1930-1990 TDD US (TDD alternative to FDD)37 1x20 1910-1930 1910-1930 TDD US38 1x50 2570-2620 2570-2620 TDD 2600 TDD part39 1x40 1880-1920 1880-1920 TDD China UMTS TDD40 1x100 2300-2400 2300-2400 TDD China TDD41 1x194 2496-2690 2496-2690 TDD Americas42 1x200 3400 3600 3400 3600 TDD New42 1x200 3400-3600 3400-3600 TDD New43 1x200 3600-3800 3600-3800 TDD New
Status: 3GPP R10, June 2011
Why operators choose LTE?
Cl t 100% 3G t ti
New radio spectrum withneed to create new ecosystem
LTE mandated in
Close to 100% 3G penetration,need for improved efficiency
Better 4G vs. 3G
LTE mandated in frequency license conditions
G
Legacy CDMA2000
Better 4G vs. 3Glicense position
WiMAX ecosystemchallenges and/or
challenges
© Nokia Siemens Networks
gevolution for TD-SCDMA
The three major WiMaxanounced their move
I di 2 3 GH ti i• Indian 2.3 GHz auction winners
•German 800 MHz auction winners
German digital dividend auction winners
S dSweden
x sponsors e to LTE
2010 – LTE has become reality2011 – the growth momentum g
© Nokia Siemens Networks
ycontinues
• 24 commercial LTE networks launched by June 2011launched by June 2011
• 13 of them running on NokiaSiemens Networks gear
• At least 91 LTE networks expected to be in commercial operation by end 2012
• 166 LTE network operator commitments in 62 countries
• 107% growth since June 2010
300 million subscribers by 201590% up since February 2010F t f LTE l d k t b Wi l i t lliForecast for LTE lead markets by Wireless intelligence
Conclusion – Why LTE?B tt bil b db d iBetter mobile broadband user experience
Throughput latency150 Mbit 150
10ms<1 Mbit
50>42 Mbit
GSM HSPA LTE GSM HSPA LTE
Technology convergence
GSM
WCDMA
CDMA
FDD LTE
LTECDMA
WiMAX
TD- TD-LTE
LTEAdvanced
>90% harmonized in 3GPP
5 © Nokia Siemens Networks
SCDMA
I d t it t b hi d th tIndustry commitment behind the ecosystem
> 300 million LTE subscribers by 2015Forecast for LTE lead markets by Wireless intelligence
166 LTE network operator it t i 62 t i
91+ LTE networks expected to be in commercial operation by end 2012
commitments in 62 countries
Extensive range of radio spectrum support
19 different FDD frequency band options11 different TDD frequency band options
Single operator may deploy both FDD+TDD LTEfor maximum utilization of spectrum assets
+ new ones still being specified both for new band deployment and re-farming casesband deployment and re farming cases
Conclusion
• Applications drive continuous subscribe
• LTE solves operator’s pains:• LTE solves operator s pains:– Traffic growth trend can be decoupled from n– LTE can be deployed on almost every spectr– LTE is the natural evolution for legacy techno– All services can be delivered over the same t– More capacity to more subscribers on the sam– New services allow for new revenue streams
• LTE enhances the end user experiencep– By delivering higher throughput and lower late– This opens a new dimension of services that
▪ Cloud computing, remote back up, e-health, HD
© Nokia Siemens Networks
Cloud computing, remote back up, e health, HDgaming, faster download, M2M
er and traffic growth
etwork expansion costum portion the operators have (OPEX reduction)
ologies (e.g: CDMA, GSM, WCDMA, WiMax)echnology (voice, data, video, mobility)me amount of spectrum (better spectrum efficiency)
e:ency (delay)cannot be offered on other mobile technologiesD video streaming, voice-data-video convergence, on-lineD video streaming, voice data video convergence, on line