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© All rights reserved www.metis2020.com The 5G Mobile and Wireless Communications system Dr. Afif Osseiran, Ericsson METIS Project Coordinator facebook.com/metis2020 twitter.com/metis2020

Система беспроводной и мобильной связи 5G

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Page 1: Система беспроводной и мобильной связи 5G

© All rights reserved

www.metis2020.com

The 5G Mobile and Wireless

Communications system

Dr. Afif Osseiran, Ericsson

METIS Project Coordinator

facebook.com/metis2020

twitter.com/metis2020

Page 2: Система беспроводной и мобильной связи 5G
Page 3: Система беспроводной и мобильной связи 5G

Content

Introduction & about METIS

5G scenarios (Selected)

Examples of 5G Technology Components

Page 4: Система беспроводной и мобильной связи 5G

Introduction: Major 5G Activities

METIS (Nov. 2012)The first stage of the 5G EU “missile”

China - “IMT-2020 (5G) Promotion group” (Feb. 2013)Program 863

Korea - 5G Forum (June 2013)Ambitious plan

Japan - 2020 and Beyond AdHoc (Oct. 2013)ARIB established new AdHoc working group called “2020 and Beyond AdHoc”

Page 5: Система беспроводной и мобильной связи 5G

Introduction: ITU-R

Two documents by ITU-R to pave the way for 5G

IMT.VISION (Deadline July 2015)

Title: “Framework and overall objectives of the future development of

IMT for 2020 and beyond”

Objective: Defining the framework and overall objectives of IMT for Objective: Defining the framework and overall objectives of IMT for

2020 and beyond to drive the future developments for IMT

IMT.FUTURE TECHNOLOGY TRENDS (Deadline Oct. 2014)

To provide a view of future IMT technology aspects 2015-2020 and

beyond and to provide information on trends of future IMT technology

aspects

Page 6: Система беспроводной и мобильной связи 5G

METIS Objectives

� Lay the foundation for

� Ensure a global forum for

� Build an early global consensus for

55GG mobile & wireless communications

2012 2013 2014 2015 2016 2017 2018 2019 2020

WRC’12 WRC’15 WRC’18/19

Exploratory research

Pre-standardization

activities

Standardization activities

Commercialization

Page 7: Система беспроводной и мобильной связи 5G

Up to

10Gbps10 years

50/500 B

devicesFew ms E2E

METIS Technical Objectives

1000x data

volume

1000x higher mobile

data volumes

10-100x higher number of

connected devices

10-100x typical end-user

data rates

5xlower latency

10xlonger battery life

for low-power devices

Page 8: Система беспроводной и мобильной связи 5G

METIS 5G Scenarios Super real-time

and reliable

connectionsAmazingly

fast

Great Service

in a crowd Ubiquitous things

communicating

Best

experience

follows you

Dense urban

information

society

delay, reliability,

new industrial

applications

bit-rate,

delayaccessibility,

large crowds

many simple devices,

coverage (redundancy)accessibility

(Coverage)

mobility

Virtual reality

office

Shopping

mall

Stadium Traffic

jam

Mobile cloud

processingOpen air

festival

Emergency

communications

Massive

deployment of

sensors and

actuators

Traffic efficiency

and safety

Teleprotection in

smart grid

networksBlind spots

Page 9: Система беспроводной и мобильной связи 5G

Selected METIS 5G Scenarios

Page 10: Система беспроводной и мобильной связи 5G

Five Challenges & Scenarios

Ubiquitous things

Very high

data rate

Very dense

crowds of

users

Very low

energy, cost,

Amazingly fastGreat service

in a crowd

Best experience Ubiquitous things

communicating . Mobility

Very low

latency

energy, cost, and massive

number of,

devices

Best experience

follows you

Super real-time and

reliable connections

Page 11: Система беспроводной и мобильной связи 5G

Scenario: Amazingly fast

Work and infotainment unhindered by delays

Amazing end-user experience provided by very

high data-rates

Virtual reality office Dense urban information societyVirtual reality officeGiga bit at application layer

Dense urban information society• Ubiquitous dense urban coverage• Large and dynamic user crowds

Page 12: Система беспроводной и мобильной связи 5G

Scenario:

Super real-time and reliable connections

Low E2E latency delay and reliable communication enabling

critical machine-type applications

Empowering industries to embrace new technologies in their

processes

Traffic efficiency and safetyTraffic efficiency and safety• More efficient use of road infrastructure

• Reduce risk for traffic incidents

Page 13: Система беспроводной и мобильной связи 5G

Scenario: Ubiquitous things communicating

Very large number of small, simple, and inexpensive devices

Requirement for long battery lifetime, scalability, and

adaptability

Inexpensive = small battery, simple device

Massive deployment of

sensors and actuators• Handle a massive number of devices

• Very low cost devices with long battery lifetime• Provide protocol scalability and coverage

Page 14: Система беспроводной и мобильной связи 5G

ROAD TO 5G Technology Components

Examples

Page 15: Система беспроводной и мобильной связи 5G

Massive MIMO: CSI Error

Transmission scheme 24x24 MIMO-OFDM eigenmode

Signal bandwidth 400 MHz

Subcarrier spacing 195 kHz

Maximum bit rate 35.3 Gbps (64QAM, 3/4)

Example of contribution:

30 Gbps simulation using 11 GHz band

measured 24x24 MIMO channel

› Performance analysis of massive MIMO in

higher frequency bands

› Impact of CSI error and hardware

impairments

Investigation points:

Sector antenna3 dB beamwidth. Antenna gain: 15 dBi

Omni-antenna (H)Antenna gain: 4 dBi12-element array with

dual polarization

12-element array

with dual polarization

* This channel measurement was conducted in Ishigaki City in partnership with Tokyo Inst. of Tech. in Japanese national project

Measurement Environment/Data

Page 16: Система беспроводной и мобильной связи 5G

Beyond Uplink & Downlink: two-way comm.

Traditionally, the designs of

the uplink and the downlink

are decoupled

The ideas related to

wireless network coding

FBS

BS

wireless network coding

suggest optimization of the

two-way communication

problem instead of

decoupling

FBS

FBS

Page 17: Система беспроводной и мобильной связи 5G

5G Future5G FutureIntegration

of access technologies

into one seamless experience

Complementary new technologies

� D2D

Communications

Evolution

� Massive MIMO

Revolution

Communications

� Massive Machine

Communications

� Ultra-Reliable

Communications

Respond to traffic explosion

10 -100 x higher typical user rate

� Higher Frequencies

� Ultra-Dense

Networks

� Moving Networks

1000 x higher mobile data

volume per area

10 -100 x higher number of

connected devices

5 x reduced E2E latency

10 x longer battery life

for low power M2M

Existing technologies in 2012

3G3G4G4G

WifiWifi

Extend to novel applications

Page 18: Система беспроводной и мобильной связи 5G

Useful Links

A. Osseiran et al, The foundation of the Mobile and Wireless Communications System for 2020 and beyond Challenges, Enablers and Technology Solutions, VTC Spring 2013, June 2-5, 2013, https://www.metis2020.com/documents/publications/

Deliverable D1.1, “Scenarios, requirements and KPIs for 5G mobile and wireless system”, June 2013

Deliverable D2.1, “Requirements and general design principles for new air interface”, Sept. 2013Sept. 2013

Deliverable D3.1, “Positioning of multi-node/multi-antenna transmission technologies”, Aug. 2013

Deliverable D5.1,“Intermediate description of the spectrum needs and usage principles”, Sep. 2013,

Deliverable D4.1,“Summary on preliminary trade-off investigations and first set of potential network-level solutions”, Nov. 2013

Deliverable D6.1,“Simulation guidelines”, Nov. 2013

All deliverables can be downloaded from https://www.metis2020.com/documents/deliverables/