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THE Mobile Broadband Standard
3GPP LTE Standards Update
Balazs Bertenyi
Chairman of 3GPP TSG-SA
© 3GPP 2012
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Key messages
THE Mobile Broadband Standard
LTE-(A) is the key enabler for addressing high mobile
data traffic demand
3GPP fully focused on
• Wide range of available bands and combinations
• Spectrum efficiency
• Addressing the smartphone challenge with innovative
features across radio and core
• Optimized machine-to-machine support
© 3GPP 2012
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THE Mobile Broadband Standard
The Role of 3GPP
Partnership Consists of
• Regional standards organizations
(Asia, Europe & North America):
• Market partners representing the broader industry: NGN Forum (IMS
Forum), TD-Forum, GSA, GSMA, IPv6 Forum, UMTS Forum, 4G Americas,
TD-SCDMA Industry Alliance, ICU, Femto Forum, CDG, COAI, NGMN Alliance
Radio Technologies
GSM, GPRS, W-CDMA, UMTS, EDGE, HSPA and LTE
Systems Architecture, Core Network, and Services
© 3GPP 2012
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Technical areas
GSM
1GBroadband Standard
THE
Mobile
Analog technology.
Deployed in the 1980s.
GSM 2G
Digital Technology.
First digital systems.
Deployed in the 1990s.
New services such as SMS
and low-rate data.
Primary technologies
include IS-95 CDMA and
GSM.
3G ITU’s IMT-2000 required 144
kbps mobile, 384 kbps
pedestrian, 2 Mbps indoors
Primary technologies
include CDMA2000 1X/EVDO, WiMAX,
and UMTS-HSPA.
4G ITU’s IMT-Advanced
requirements include ability to
operate in up to 40 MHz radio
channels and with very high
spectral efficiency.
No technology meets
requirements today.
IEEE 802.16m and LTE
Advanced designed
to meet requirements.
© 3GPP 2012
Radio Technology
• Spectrum availability, efficiency, flexibility
• Higher Data Throughput, Lower Latency
• Improved CAPEX and OPEX
IP Core Network
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Support of non-3GPP Accesses (e.g. WiFi)
Optimized Packet Only Support
Enhanced QoS and Policy
Support for M2M
Greater Device Diversity
Service Layer
• IMS and Applications
• Session continuity
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Spectrum Explosion
THE Mobile Broadband Standard
Recently standardized (Sep. 2011)
E-UTRA operating bands in 3GPP TS 36.101
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UMTS/LTE 3500MHz
Extending 850 MHz Upper Band (814 – 849 MHz)
Spectrum to be standardized by Sep. 2012
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© 3GPP 2012
LTE-Advanced Carrier Aggregation of Band 3 and Band 7
LTE Advanced Carrier Aggregation of Band 4 and Band 17
LTE Advanced Carrier Aggregation of Band 4 and Band 13
LTE Advanced Carrier Aggregation of Band 4 and Band 12
LTE Advanced Carrier Aggregation of Band 5 and Band 12
LTE Advanced Carrier Aggregation of Band 20 and Band 7
LTE Advanced Carrier Aggregation Band 2 and Band 17
LTE Advanced Carrier Aggregation Band 4 and Band 5
LTE Advanced Carrier Aggregation Band 5 and Band 17
LTE Advanced Carrier Aggregation in Band 41
LTE Advanced Carrier Aggregation in Band 38
LTE Downlink FDD 716-728MHz
LTE E850 - Lower Band for Region 2 (non-US)
LTE for 700 MHz digital dividend
Study on Extending 850MHz
Study on Interference analysis between 800~900 MHz bands
Study on UMTS/LTE in 900 MHz band
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The 2.6GHz band
THE Mobile Broadband Standard
120MHz separation duplex
FDD Uplink
2500
TDD
2570
FDD Downlink
2620
2690 MHz
Capacity
Unique new band internationally harmonized
Benefits of future economies of scale
Capability to offer sufficient bandwidth per operator (20+20MHz)
Avoid prejudicial interference, optimizing the spectrum use, through clear
definition of FDD (70+70MHz) and TDD (50MHz) spectrum blocks
© 3GPP 2012
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700MHz band
803
758
703
748
THE Mobile Broadband Standard
698
806
5
45
10
45
MHz
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Coverage
Perfect fit to majority of countries in the region
The alignment with Asia-Pacific permits the creation of a big market
(economies of scale, availability of terminals, etc.)
Offer 2 continuous blocks of 45+45MHz (spectrum optimization, flexibility
on license process, better data transmission performance than US 700);
Tool to bring the mobile broadband to rural and low density population
areas
© 3GPP 2012
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2.6GHz + 700MHz
THE Mobile Broadband Standard
Ideal combination for
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Coverage
Capacity
Convergence
Device availability
Roaming
Convergence for countries with the legacy US band plan
(850/1900MHz) and the legacy European band plan
(900/1800MHz)
Note: no plans/proposals in 3GPP for LTE in 450Mhz band
© 3GPP 2012
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LTE-Advanced (Rel-10 onwards)
THE Mobile Broadband Standard
LTE-Advanced shall be deployed as an evolution of LTE and on new bands
LTE-Advanced shall be backwards compatible with LTE
Smooth and flexible system migration from Rel-8 LTE to LTE-Advanced
LTE-Advanced backward compatibility with LTE Rel-8
LTE-Advanced contains all features of LTE Rel8&9 and additional features for further
evolution
LTE Rel-8 cell
LTE Rel-8 terminal
LTE-Advanced terminal
An LTE-Advanced terminal can
work in an LTE Rel-8 cell
© 3GPP 2012
LTE-Advanced cell
LTE Rel-8 terminal
LTE-Advanced terminal
An LTE Rel-8 terminal can work
in an LTE-Advanced cell
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Key Features in LTE-A Release 10
THE Mobile Broadband Standard
Support of Wider Bandwidth(Carrier Aggregation)
• Use of multiple component carriers(CC) to extend bandwidth up to 100 MHz
• Common physical layer parameters between component carrier and LTE Rel-8 carrier
Improvement of peak data rate, backward compatibility with LTE Rel-8
100 MHz
f
CC
Advanced MIMO techniques
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Extension to up to 8-layer transmission in downlink
Introduction of single-user MIMO up to 4-layer transmission in uplink
Enhancements of multi-user MIMO
Improvement of peak data rate and capacity
Heterogeneous network and eICIC(enhanced Inter-Cell Interference
Coordination)
• Interference coordination for overlaid deployment of cells with different Tx power
Improvement of cell-edge throughput and coverage
Relay
•
Type 1 relay supports radio backhaul and creates a separate cell and appear as Rel. 8 LTE eNB to
Rel. 8 LTE UEs
Improvement of coverage and flexibility of service area extension
Coordinated Multi-Point transmission and reception (CoMP)
• Support of multi-cell transmission and reception
Improvement of cell-edge throughput and coverage
© 3GPP 2012
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THE Mobile Broadband Standard
Some Key Features in LTE-A
Release 11 (Dec/2012)
Further Downlink MIMO enhancements for LTE-Advanced
Addressing low-power modes, relay backhaul scenarios, and certain
practical antenna configurations
Provision of low-cost M2M UEs based on LTE
Studying LTE Coverage Enhancements
Network-Based Positioning Support for LTE
Further Self Optimizing Networks (SON) Enhancements
Mobility Robustness Optimisation (MRO) enhancements
Addressing Inter-RAT ping-pong scenarios
Carrier based HetNet Interference co-ordination for LTE
Carriers in same or different bands in HetNet environments with
mixture of different BTS types
Enhancements to Relays, Mobile Relay for LTE
RF core requirements for relays
Mobile relay: mounted on a vehicle wirelessly connected to the macro
cells
© 3GPP 2012
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Plans for LTE-A Release-12
THE Mobile Broadband Standard
3GPP workshop to be held June/2012
• Main themes and strategic directions to be set, e.g.:
• Extreme capacity needs and spectrum efficiency (‘challenge
Shannon’
• Flexibility, efficient handling of smartphone diversity
• Offloading to unlicensed radio technologies
• Power efficiency
Prime areas of interest, e.g.:
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More optimized small cell deployments
Carrier Aggregation Enhancements (inter-site, LTE/HSPA)
Cognitive radio aspects
SON and MDT enhancements
Local Area optimizations
© 3GPP 2012
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Core Network
Evolution
THE Mobile Broadband Standard
Operator’s
IP Services
(e.g., IMS, PSS etc)
Operator’s
IP Services
(e.g., IMS, PSS etc)
PSTN
P-GW
GGSN
MSC
Circuit/GPRS
Core Network
Evolved Packet
Core Network
SGSN
MME
S-GW
RNC
eNode B
Node B
‘99
‘01
© 3GPP 2012
‘03
‘05
‘07
‘09
‘11
‘13
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THE Mobile Broadband Standard
Core Network optimised for
IP traffic and services
Multi-access, operators can influence the selection
Dual-stack IPv4/v6 connectivity
Network initiated QoS, PCC
Various ways to combine or split traffic off at various points
• Local IP Access (LIPA)
• Selective IP Traffic Offloading (SIPTO)
• WLAN offloading
IP Multimedia Subsytem
Network sharing
© 3GPP 2012
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Machine-to-Machine (M2M)
THE Mobile Broadband Standard
M2M is recognized as a key segment in future packet networks
Initial 3GPP efforts have focused on the ability to differentiate machine-type
devices
• This allows the operator to selectively handle such devices in overload situations
• Low priority indicator has been added to the relevant UE-network procedures
• Overload and Congestion control is done on both core network and radio access
network based on this indicator
Functions for device triggering and small data transmission have been added
Still a lot to do…
© 3GPP 2012
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THE Mobile Broadband Standard
Proximity Services and
Public Safety
Proximity-based applications and services represent a recent
and enormous social-technological trend
• These applications and these services are based on the awareness that
two devices or two users are close to each other
• Awareness of proximity carries value, and generates demand for an
exchange of traffic between them
Direct device-to-device communication is also essential for
Public Safety services
• Necessary LTE enhancements to support Public Safety functions are
expected to be added in Rel-12/Rel-13
• Regional regulators need to progress the spectrum band aspects
© 3GPP 2012
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THE Mobile Broadband Standard
Regulatory features – disaster
response
Recent events have brought the different disaster response
functions of the 3G/4G networks to the forefront
• Public Warning System (PWS) provides a secure framework
for delivering Warning Messages to the devices
• The Japanese version of this system saved thousands of lives in last
year’s earthquake/tsunami disaster
• Priority Services
• Mechanisms have been standardized to allow priority access to the
network services (voice calls, Internet, multimedia calls, etc…) for
e.g. government officials in the event of a mass disaster
© 3GPP 2012
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Summary
THE Mobile Broadband Standard
LTE-(A) is the viable path for mobile
broadband
3GPP systems approach ensures
continued evolution to meet new
demands
Expect a lot of great things to come
© 3GPP 2012
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Thank You
THE Mobile Broadband Standard
[email protected]
More
Information
about 3GPP:
www.3gpp.org
[email protected]
© 3GPP 2012
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