Jointly Paving the

Way for 5G

5G Marketing

2

5G Industry Insight

5G Capability Use Cases

3

5G Capability Requirements Defined by 3GPP

Requirements of Different Services 3GPP Standardization Targets for 5G NR

Source: 3GPP TR 38.913

3x

Control Plane: 10ms

User Plane eMBB: 4ms

User Plane uRLLC: 0.5ms 1M devices/km2

100X(ITU)

Peak Data Rate

DL: 30Gbps

UL: 15Gbps

User Experienced

Data Rate

DL: 100Mbps

UL: 50Mbps

Spectrum

Efficiency

Mobility

(500km/h)

Latency Connection

Density

Area Traffic

Capacity

10Mbps/m2

Network

Energy

Efficiency

uRLLC mMTC

Peak Data Rate User Experienced

Data Rate

Spectrum

Efficiency

Mobility

Latency Connection

Density

Area Traffic

Capacity

Network

Energy

Efficiency

eMBB

LTE-A

5G NR

4

5G Use Cases Evaluation & Prioritization

1

2

3

4

5

6

UHD/3D/Holo… Video

AR/VR

Connected Vehicle

Smart Manufacturing

Fixed Wireless Access

Delivery Drone

Use Case Example Use Case Evaluation

4

2 1

5G Relevance/5G Essential

Bu

sin

ess Im

pact-

Ad

dre

ss

ab

le M

ark

et/

Op

era

tor

Valu

e

Low medium high

Low

medium

high

Key relevant Use cases

5

6

3

5

Meeting Interactive Presentation

Cloud based VR – Social VR

5G eMBB & uRLLC service exploration

Network Requirements

Latency < 5~9ms

Throughput : 48Mbps~1.2Gbps

6

Load truck Mine truck Shuttle bus

Tele-operated Driving – Autonomous Car

5G uRLLC service joint innovation

Network Requirements

Latency < 10ms

Reliability: 99.999%

7

Loading work at port Plant manufacturing

Industry Robotic – Smart Factory

5G uRLLC & mMTC service joint innovation

Network Requirements

Latency < 5~100ms

Throughput > 60Mbps

8

Pave the Way for 5G

Network Architecture Ready Spectrum & Site Ready

9

Complementary Capacity Layer

• Hotspot capacity boosting

• Self-backhaul for easy site acquisition

• Fixed wireless access

Primary Capacity Layer

• C-Band with Massive MIMO for capacity

& coverage

• UL & DL decoupling extend coverage

Primary Coverage Layer

• CloudAIR enable NR fast deployment

• 4T4R as basic configuration

Target Network for 5G NR

Spectrum & Site Ready Architecture Ready

Urban Suburban Rural

C-Band

Sub-3GHz

G30 G40 G70

mmWave

10

Support M-MIMO with Affordable Complexity

1.8GHz

Massive MIMO

2.6GHz

Massive MIMO 3.5GHz

Massive MIMO

C-Band + M-MIMO Boosts DL Capacity

90cm

40cm 70cm

140cm

100cm

50cm

C-band M-MIMO Boosts Capacity with Affordable Complexity

Spectrum & Site Ready Architecture Ready

Mbps DL Average Cell Throughput

~24x

Probability

0

100

...

10000

0 50% 100%

C-Band (100M 64T64R)

1800MHz (20M 2T2R)

11

UL&DL Channel Decoupling Enlarges Cellular Coverage Will comply with 3GPP Release 15.

800/1800MHz Coverage

3.5GHz UL Coverage

3.5GHz DL Coverage 1800MHz*

3.5GHz

3.5GHz Coverage

Enlarged

Implement 3.5GHz Large-Scale Deployment

* Could be any low band frequency

UL@1800MHz + DL@3.5GHz

~2X Coverage Extended

3.5GHz DL

1800MHz UL

3.5GHz UL

Spectrum & Site Ready Architecture Ready

12

mmWave Provides Fiber Class Speed in Specific Scenarios

Indoor & Outdoor

Hotspot

Transmission

Backhaul

Household Last-Mile

Access

28GHz 39GHz

System Bandwidth 800MHz 800MHz

Transmission Power (dBm) 36 35

Tx+Rx Antenna Gain(dBi) 26+17 26+17

Coverage

(meter)

for 100Mbps

@Cell Edge

NLOS

O2O 381 303

O2I (Standard multi-

pane glass) 130 91

O2I (IRR-Glass) 33 14

LOS

O2I (Standard

multi-pane glass) 2917 1483

O2I (IRR-Glass) 291 130

Coverage

(meter)

for 1Gbps

@Cell Edge

NLOS

O2O 168 133

O2I (Standard multi-

pane glass) 54 34

O2I (IRR-Glass) NA NA

LOS

O2I (Standard

multi-pane glass) 767 389

O2I (IRR-Glass) 73 26

Spectrum & Site Ready Architecture Ready

13

Sub3GHz: 4T4R will be the Basic Configuration

3G:

2005 2010 2015 2020

Avg. Spectrum Efficiency =

0.5-0.6 Bit/Hz

1T2R

5G: > 4T4R

Tra

ffic

(M

B p

er

su

bs

cri

be

r

pe

r m

on

th)

4G: 2T2R

Avg. Spectrum Efficiency =

1.5-1.8 Bit/Hz

~3X Increase by

2T2R upgrade >3X

Improvement LTE 4T4R: ~1.7x

5G NR: 2~3x

5G: 4T4R

Basic Conf.

Spectrum & Site Ready Architecture Ready

14

CloudRAN as 5G Fundamental Architecture

IP

RAN-Non Real Time

Cache ……

GW APP

AAU

RAN-Real Time

IP

RAN-Real Time RAN-Real Time

Pico/Micro

IP

Macro(LTE/5G)

RRU

Cloud BB

CloudRAN Architecture

Centralized Unit

• COTS hardware, centralized deployment

• On-demand allocation, rapid deployment

for new service

Distributed Unit

• Dedicated hardware, distributed deployment

• Better performance, >20X efficiency

Spectrum & Site Ready Architecture Ready

15

Huawei 5G Update

16

Joint Efforts to Bring 5G into Reality

5G NR Technologies

Trial

Full Spectrum Access

Field Trial

5G Network

Architecture Trial

F-OFDM SCMA

Polar Code MU-MIMO

C-band

mmWave UCNC

Network Slicing

…

17

First to Finish Verification of 5G Key Technology

First to Finish NR Trial in IMT-2020 Phase2

F-OFDM SCMA

Polar Code MU-MIMO

World’s 1st 5G Large-Scale Trial

UL 3X connections

DL >1.5X throughput

Saving guard band

24 layers

3.6Gbps Peak Rate

0.5~2dB gain compared with

LTE Turbo Code

Achieve >14Gbps Peak Rate@160MHz, 0.5ms

Latency and 4 million connections simultaneously

18

High-Low Networking & Dual-Connectivity Test with CMCC

• 10+Gbps@200MHz BW

• 3D Beamforming

• 26 Layers

• 40+Gbps@1GHz BW

• 8 Users

• 16 Layers

• 5Gbps+15Gbps • 8 + 8 Layers

28GHz

MU-MIMO

C-band & 28GHz

Dual Connectivity

C-band

MU-MIMO

Compact Design for Verification in Commercial Environment Unified platform for low & high band

High & Low Band Hybrid Networking Static Test

19

High & Low Band Hybrid Networking Mobility Test

C-band & 28GHz co-site

C-band for continuous coverage

28GHz for experience improvement

Inter-Cell handover when driving

0

2000000

4000000

6000000

8000000

10000000

12000000

14000000

16000000

18000000

20000000

1 4 7 10 13 16 19 22 25 28 31 34 37 40 43 46 49 52 55 58 61 64 67 70 73 76 79 82 85 88

DL Throughput

4GHz THP 28GHz THP DC THP

Intra-Site

Handover

Peak Throughput of DC: 18Gbps

Ave. Throughput: 9.8Gbps

(2.3Gbps @ C-band and 7.4Gbps @28GHz)

Driver Test Route

260m

302m

28GHz

C-Band Time(s)

kbps

20

Joint Exploration of 5G E2E Slicing in MWC2017

AR Slice + Robot Slice + FMC Slice

C/U Decoupling

Programmable Network Functions

RAN + Transport + Core + BSS/OSS

1 Physical Infrastructure, 3 Isolated Slices

21

Open Collaboration for Global Unified Standard

Stockholm, Sweden •System Architecture

•Algorithms

Paris, France •Standardization

Munich, Germany •Verticals

New Jersey, USA •5G Transmission

Ottawa, Canada •5G Radio

•Network Architecture

5G Research Centers

in China •Shenzhen

•Shanghai

•Cheng du Moscow, Russia •Fundamental Algorithms

5G Research

Centers

(11)

Europe

Asia

Leading R&D Partner

•Beijing

•Hangzhou

Industry Collaborations

20+ operators

Key Founder Board Member Key Founder

Leading R&D Partner

(Japan)

Board Member

(China)

Leading R&D Partner

(Korea)

Operator Collaborations

22

Thank You