LTE Advanced - The Global 4G Standard

CHAITANYA
chaitanya.singh87@gmail.com

ABV-IIITM
Gwalior

The Global 4G
Solution

INTRODUCTION
• LTE Advanced is a mobile communication 4G standard
approved by International Telecommunications Union
(ITU) in Jan 2012 [1].
• Standardized by the 3rd Generation Partnership Project
(3GPP) as a major enhancement of the Long Term
Evolution (LTE) standard.
• It incorporates many enhancements including the
aggregation of multiple radio channels, advanced
antenna techniques, advanced network topology
and others.

Evolutionary Trends

Source of Figure : [2]


LTE-Advanced Features
• Peak data rates: downlink - 1 Gbps; uplink - 500 Mbps.
• Spectrum efficiency: 3 times greater than LTE.
• Peak spectrum efficiency: downlink - 30 bps/Hz; uplink - 15 bps/Hz.
• Spectrum use: the ability to support scalable bandwidth use and spectrum
aggregation where non-contiguous spectrum needs to be used. the lower
and upper bandwidths limits are 40 MHz and 100 MHz.
• Latency: from Idle to Connected in less than 50 ms and then shorter than 5
ms one way for individual packet transmission.
• Cell edge user throughput to be twice that of LTE.
• Average user throughput to be 3 times that of LTE.
• Compatibility: LTE Advanced shall be capable of interworking with LTE and
3GPP legacy systems.


Principal technologies
• SON ( Self-Optimizing Networks).
• Carrier aggregation of contiguous and non-contiguous
spectrum allocations.
• Range expansion with Interference management and
suppression
• CoMP (Coordinated Multipoint transmission & reception).
• Relaying.
• Higher order MIMO.
• Heterogeneous network support.
• all-IP Flat Architecture.

• Self-Optimizing Networks
Self configuration Self optimization Self healing

Source of Figure: [4]

• Carrier aggregation


• Range expansion


• Coordinated Multipoint transmission & reception

• Joint processing:
• Coordinated scheduling or beamforming:


• Relaying


CONCLUSION
• Industry-supported field trials are already demonstrating the
viability of many of the technical concepts in LTE-Advanced.
• LTE-Advanced meets all 4G requirements and ITU officially
certified it as 4G.
• Nevertheless, the timing of LTE-Advanced deployment is
difficult to predict and will be dependent on industry demand
and the success of today’s Release 8 and 9 LTE rollouts.

REFERENCES

1. "IMT-Advanced standards for mobile broadband communications,"
ITU NEWS, www.itunews.itu.in , Jan 2012.
2. "Introducing LTE-advanced,“ Agilent Technologies,
www.agilent.com/finnd/LTE, Application Note, Nov 2010.
3. "4G Mobile Broadband Evolution: 3GPP Release 10 and Beyond," 4G
Americas, www.4gamericas.org, White Paper, Feb 2011.
4. "Self-Optimizing Network: The benefits of SON in LTE," 4G Americas,
www.4gamericas.org, White Paper, July 2011.
5. "LTE Advanced: Heterogeneous Networks,“ Qualcomm,
http://www.qualcomm.com/solutions/wireless-
networks/technologies/lte-advanced, White Paper, Jan 2011.

Thank You

Additional Slides

3GPP Organizational Partners
Market Representation Partners
• Association of Radio Industries
and Businesses (ARIB) Japan
• IMS Forum
• Alliance for Telecommunications • TD-Forum
Industry Solutions (ATIS) USA • GSA
• China Communications
Standards Association (CCSA)
• GSM Association
China • IPV6 Forum
• European Telecommunications • UMTS Forum
Standards Institute (ETSI)
Europe
• 4G Americas
• Telecommunications Technology • TD SCDMA Industry Alliance
Association (TTA) Korea • InfoCommunication Union
• Telecommunication Technology
Committee (TTC) Japan
• Femto Forum
• CDMA Development Group
• Cellular Operators Association of India
(COAI)
• NGMN Alliance


• all-Internet Protocol (IP) packet switched network.
Specific • Interoperability with existing wireless standards.
requirements of • A nominal data rate of 100 Mbit/s at high speeds
and 1 Gbit/s in fixed positions.
the IMT-Advanced
• Dynamically share and use the network resources
report included: to support more simultaneous users per cell.
• Scalable channel bandwidth 5–20 MHz, optionally
up to 40 MHz.
• Peak link spectral efficiency of 15 bit/s/Hz in the
downlink, and 6.75 bit/s/Hz in the uplink (meaning
that 1 Gbit/s in the downlink should be possible
over less than 67 MHz bandwidth).
• System spectral efficiency of up to 3 bit/s/Hz/cell in
the downlink and 2.25 bit/s/Hz/cell for indoor
usage
• Seamless connectivity and global roaming across
multiple networks with smooth handovers[.
• Ability to offer high quality of service for
multimedia support.

FDD and TDD LTE
frequency bands

SON ARCHITECTURE chaitanya.singh87@gmail.com

• Base Station Self-Configuration
• Automatic Neighbor Relation
(ANR)
• Tracking Area Planning
• PCI Planning
• Load Balancing
• Mobility Robustness / Handover
Optimization
• RACH (Random access channel)
Optimization
• Inter Cell Interference
Coordination
• Energy Savings
• Celloutage Detection And
Compensation
• Coverage And Capacity
Optimization

Common LTE FDD & TDD
Chipset Platform

• MODEMS & DATA CARDS
• SMARTPHONES & TABLETS

LTE Advanced - The Global 4G Standard

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