Les matinales du Smart Home par IGNES
" Tout est SMART, tout est AUGMENTÉ : les apports de la 5G."
⇨ Merouane DEBBAH - HUAWEI - Director of the Mathematical and Algorithmic Sciences Lab
⇨ Eric HARDOUIN - ORANGE - VP, Ambient Connectivity Research
Les matinales du Smart Home par IGNES
" Tout est SMART, tout est AUGMENTÉ : les apports de la 5G."
Anne-Sophie Perrissin-FabertDéléguée Générale - IGNES
@IGNES_FR#smarthome#5G
1. 5G MARKET UPDATE
2. 5G DEPLOYMENT ASPECTS
3. 5G USE CASES
AGENDA
The 3rd Paradigm Shift of Mobile Industry is Going to Happen
Super Connected World (5G)
Connectivity as a Service
198x200x
Voice Era (1G) MBB Era (3G)
2020~
Network Slice as a Service
eMBB + uRLLC + mMTC
eMBB
mMTC uRLLC
Requirements of Different Services3GPP Standardization Targets for 5G NR
Source: 3GPP TR 38.913
3x
Control Plane: 10msUser Plane eMBB: 4ms
User Plane uRLLC: 0.5ms1M devices/km2
100X(ITU)
Peak Data Rate
DL: 20GbpsUL: 10Gbps
User ExperiencedData Rate
DL: 100MbpsUL: 50Mbps
Spectrum Efficiency
Mobility(500km/h)
LatencyConnection Density
Area Traffic Capacity
10Mbps/m2
Network Energy
Efficiency
uRLLCmMTC
Peak Data Rate User ExperiencedData Rate
Spectrum Efficiency
Mobility
LatencyConnection Density
Area Traffic Capacity
NetworkEnergy
Efficiency
eMBB
LTE-A
5G NR
5G Capability Requirements Defined by 3GPP
R15 Enables Ultimate User Experience on eMBB
2015 2016 2018 20192017 2020
2018.06.14R15 frozen
R15:eMBBR16:All ITU Scenarios(eMBB, uRLLC, mMTC)
R15 NSA
R15 SA R16
X 10User Experience
X 20~30Cell Capacity
5G Bandwidth
C band:~100MHzmmWave:~400MHz
NR Air Interface
f-OFDM, Polar Code, LDPC, UL & DL decoupling
4T4R->64T64RCRS Free, Full Channel BF
Massive MIMO
2T4R as >2.6GHz BasicConfig. HPUE with 26dBm
eMBB Devices
RAN #80
R15Late Drop
6
NSA Focus on eMBB, SA Support Full 5G Services
NSA SA
eMBB URLLC mMTC Network Slicing
• High eMBB Maturity
• Experience Continuity
• Support Initial 5G Fast
Deployment
• Grand-free/Mini-slot NR
Air interface standardized
• Full uRLLC
standardization will be
ready in R16
• Massive IoT is expected
in R16.
• R15 readiness on
eMBB Slice ability
• Full Service Network
Slicing will be ready in
R16
NR Flexible Numerology Overview
NR F-OFDM LTE OFDM
SCS (kHz) 15 30 60 120 240 480 15
Max BW* (MHz) 50 100 200 400 400 400 20
TTI (ms) 1 0.5 0.25 0.125 0.062 0.031 1
TDD Sync Req 3us 3us 3us*** 3us*** 3us*** 3us*** 3us
Guard** 4% 4% 4% 4% 4% 4% 10%
*Max 275RB up to 120kHz, 14 symbols per TTI, 12 SC per RB, same as LTE** Flexible Spectrum, F-OFDM*** May need skipping one TDD symbol, some assumption about >6GHz
New Waveform & Channel Coding
LTE: 10% Guard Band
NR: ~4% Guard Band
F-OFDM
Less guard band increase 6%+ SE
LTE Turbo
NR LDPC
LDPC Coding Polar Coding
eMBB UPReduce UE Power
Consumption vs Turbo
eMBB CPCoverage gain: ~0.5dB vs
Turbo
Turbo LDPC
Decodability 30% 90%
Decode Latency 1X 1/3
Chip Area 1X 1/3
Power Consumption
1X 1/5
Global 5G Spectrum Auction Plan
2017 2018 2019 2020~
1GHz 6GHz 100GHz3GHz 24GHz 40GHz
C-BandSub 3GHz mmWave
Ireland 3.5GHz May.2017
Czech 3.6-3.8GHz Jul.2017
Latvia 3.6-3.8GHz Jul.2017
Korea:3.5GHz/28GHz Jun.2018
Italy 700M/3.6-3.8GHz/26GHz Sep.2018
Spain 3.6-3.8GHz Jul.2018
UK3.5GHz Apr.2018
Australia 3.6GHz Dec.2018
US: 28GHz Nov.2018
China:2.6/3.5/4.9GHz Nov.2018
Finland: 3.5GHz Oct.2018
Hong Kong:26/28GHz Dec,2018
Sweden:700MHz Dec,2018
Mexico(2.5GHz) Aug.2018
Japan:26/28GHz 2019
Germany 3.6GHz H1 2019
UK :700MHz 2019
Hong Kong:3.3/3.5/4.9GHz July.2019
Switzerland: 2.6/3.4-3.8GHz H1 2019
Thailand: 700M/2.6GHz 2019
Belgium: 700MHz/1.4/3.6GHz H1 2019
Norway: 700MHz/2.1GHz Q1 2019
Netherlands: 700MHz/1.4/2.1GHz Q1 2019
Qatar: 700MHz/3.5/26GHz 2019
Romania:700MHz/3.4-3.8/26GHz 2019
……
France: 3.4-3.8/26GHz 2020
Canada:3.5/3.8GHz 2020
Japan:3.4-3.7GHz 2020
……
C-Band Becomes Globally Harmonized 5G Spectrum
All Bands Go to 5G
mmWave
NR
700M LTE/NR
1800M
2600M
C-BandNow
Step1
Step2
700M LTE/NR
Sub 3GHz
LTE Evo->NR
Sub 1GHz
LTE Evo->NR
Growing LTE
All to LTE, 5G Hardware Ready
All to 5G NR
800M
1800M
2600M
800M
C-Band
5G Era Network LTE Evolution +NR
Commercial Smartphone Launched Scale Commercial
Mobile
CPE
Chipset
Q22017.Q3 Q4 2018.Q1 2019.Q1Q3 Q4 Q2 Q3 Q4 2020.Q1 Q2
CPE 1.0C-band
Samsung (V5G)SFG-D0100 (mmW)
X55 (CS) NSA/SA (mmW & Sub6)
B5G01 NSA (ES)
NSA (CS)( mmW & 2.6 &C-band )
SA Trials(Sub6)
B5000 NSA/SA (ES)
Exynos 5G NSA/SA(ES)
Exynos 5G NSA/SA(CS)
Ecosystem Drive 1st Wave 5G Commercial launch in 2019
Z3 Mod ( mmW )
CPE 2.0( Sub6 )
CPE 5G01C-band
Samsung Outdoor CPE(V5G) (mmW)
NETGEAR NightHawk CPE (mmW)
WNCCPE (sub-6)
HTC MiFi (2.6Ghz)
SamsungMiFi (sub6)
D-Link CPEDWR-2010
(sub-6/mmW)
XMM 8160 NSA/SA
(mmW&Sub6)
XMM 8060NSA
(mmW&Sub6)
X,000 sites
C-Band/2.6G/4.9G Trial
2018 2019 2020
xx0,000 sites
C-Band/2.6G/4.9G
5G is Now, Industry
X,000 Sites
C-Band
x0,000 sites
C-Band
20+ countries will finish 5G
spectrum Action in 2019:
Australia, Finland, UK, Spain, Korea, USA,
UAE, Kuwait, KSA, Qatar, Bahrain, Oman
Austria, Belgium, China, Denmark, France,
India, Japan …
BBU CPECore Transport5G
smartphone1st
End-to-end 5G system
5G E2E commercial systems launched by September 30, 2018
C-Band mmWave
1st 7nm5G baseband chipset
No.1 Market Share
More than 1M pcs
shipment/year
Kirin 980World's first commercial 7nm
AI chip for smartphones
Ascend 910Cloud computing AI chip with
greatest computing density
Kunpeng 920Arm-based Processor with
Highest performance
3GPP-Based 5G Commercial/Pre-Commercial Cooperation
3GPP-Based
5G Commercial/Pre-Commercial
Contract
In Countries
… …
*Due to the limitation of NDA, some of the 5G Commercial contact can’t be disclosed.
… …
VIVA
1. 5G MARKET PROGRESS UPDATE
2. 5G DEPLOYMENT ASPECTS
3. 5G USE CASES
AGENDA
5G Invests More Sites than 4G1
2
3 Fast TTM
High Cost for 5G Sites
Modernization
3.5GHz Coverage Extended Coverage
+3000W
(Antenna, Wind Load, Power)
(Automation, E2E) Core
Deeper coverage
5G Massive MIMO Ultimate Experience
8x for horizontal coverage
3~10x for vertical coverage
8~20dB gain for vertical coverage
Better for 30 floors high building
Further coverage
MU-MIMO Pairing maximize cell capacity
16 layers multi-user beam forming
5Gbps DL cell throughput
SU-MIMO multiple stream max single user experience
2.8Gbps DL peak THP@ 4T8R
1.5Gbps DL peak THP@2T4R
Cost Efficient XGbps Clean Site Fast TTM
18
Sub-3G
C-band 64T64R
3.5GHz SUL Extended Coverage
Sub-3G
UL & DL Decoupling Enable Sub-3GHz to Improve NR UL Coverage
Definition of UL & DL decoupling
• DL 3.3G~3.8G + SUL 700/800/900/1800/2100M
• DL 4.4G~5.0G + SUL 900/1800M
Supports SUL Full Bands
UL DL Decoupling IoDT Testing with HW
UL DL Decoupling Planning in 18Q4
…
…
UL Spectrum can be dynamically shared between LTE & NR
New sites
Original sites
Decoupling Disabled
Sites Num. : 143+106 Sites Num.: 143+8
UL & DL Decoupling Reduces New Sites Acquisition
Decoupling Enabled
+74% +5.6%
*2018 May, China Hangzhou, based on SA
Hangzhou Wulin
Existing 1.8G sites: 119
Average distance: 346m
Area: 12.2km^2
Architecture: SA
5G target UL data rate: 5Mbps (90%)
20
Voice: VoLTE Preferred for NSA, VoNR Preferred for SANSA(Option 3x) SA(Option 2)
VoLTE with good experience, LTE wide
coverage, ~2s access
VoLTE when VoNR doesn’t support,EPS FB
to 4G VoLTE, 3~4s access
CSFB when VoLTE isn’t deployed, 2/3G
national coverage, ~6s access
VoLTE NR
VoLTE
NREPS FB
VoLTE
VoNRPS HO
LTE
NR
CS on 2G/3G
CSFB
EPS FB
LTE
CS on 2G/3G
CSFB
NR
VoNR: 1.5~2s access, PS Handover to 4G VoLTE
at cell edge
CSFB when VoNR/VoLTE isn’t deployed, 2 times FB,
~8s access
8
Multi-band Antenna
Sub-3GHz All-in-one
1 BBU5900
Multimode BBU for All RAT
Simple: 2 poles for 1 sector
Super Capacity: 25Gbps
Convergence: 2/3/4/5G All in One
APM5930
Power & Battery
UBBPg
• Cell:108
• RRC:7200
• Transmission:25Gbps
UMPTg
• C-Band: 3*100M
64TRx + 3*20M 4R
AAU5613 – 64T64R, 200MHz, 200WAAU5313 – 32T32R, 200MHz, 200WAAU5310 – 32T32R, 100MHz, 100W
3 MODELS OF 5G AAU
1 RRU 5G 3500MHZ
RRU5258 – 8T8R, 200MHz, 240W
3 MODELS FOR ALL
SUB 3GHZ BANDS
RRU5509t – 7/8/9, 2T4R, 2x140WRRU5502 – 18/21, 4T4R, 4x80WRRU5301 – L2600, 4T4R, 4x40W
1 CONTROL BOARD PER SITE
2 BASEBAND BOARDS PER SITE
UBBPg2a – 3x100M 64T64R + 3x20M 4RUBBPg2 – 12x20M LTE 4T4R (multi-mode)
Optimal MM Pattern Enables Best Performance Efficiently
Before After Pattern Adjusting
*Source: 2018 Hangzhou Trial
RSRP
15.84%
AI based Massive MIMO Self-Adaptation: how does it work?
Automation Network Management Ease Multi-RAT & Multi-Service OPEX
Service Provisioning
X Suites: WTTx Suite …
Service Deployment
Service Evaluation
Network
Service Visualization
Service Terminals 20% Network Performance
Hardware Plug & Play
Power On Site Active
Software Feature Plug & Play
Scenario AutoBenefit
Detection Forecast Configuration
• Coverage Prediction
• Pattern Intelligent Search
AI in 5G
AI NE AINetwork
AI Data AI chipset AI service
AI base station
Network auto configuration
Failure detectionPolicy management
RAN minimal deployment
RAN AI chipset
DTX adaptation
Self operation
MBB AI Slice
E2E Performance learning
Comp mode selectionLink Adaption
PAPR non-linear compensation
• Regression• Clustering• Classification
• Deep Learning• RDL• Transfer Learning• Graphic algorithms
Slice resource management
ASFN adjustment
• Re-enforcement learning• Dynamic optimization• GMM/HMM• Association rule mining
HF/LF collaboration
LTE power control
HF channel map construction
AI management platform
Alg
orith
mA
rchite
cture
AI Center Trainer• Learner• Policy• Explorer
eNB AI Agent• Decides action• Determine state
Feature Statistic Collector• 1 Collects Statistics• 2 Applies Action
1. 3GPP STANDARD UPDATE, MARKET PROGRESS UPDATE
2. GO FOR DEPLOYMENT: SITE READINESS
3. GO FOR BUSINESS: USE CASES
AGENDA
2018 Phase I 2019-2020 Phase II 2021- Phase III
FWA (2H) eMBB + FWA
Ecosystem Serving all industry
20ms
5Mbps
100Mbps
Branding: High Value Area Offloading: High Traffic Area Coverage: 100Mbps everywhere
10Gbps
100Mbps
1ms
5G CPE
TabletTV Phone
Phone
Fax
LAN
computer
Enterprise Internet Access
Enhanced MBB Service
300Mbps
50Mbps
10ms
Already Happened
Mobile First 1
Mobile Voice
Fix line
Mobile First 2
Mobile Voice surpass fix line
WTTx surpass FTTx
Will Happen
WTTx
FTTx
3G Era 5G Era
Mobile
First
All
Video
5G is Now, Business Value
Multi-Play User with Higher Loyalty and Tariff
Mobile + Internet + TV + VR + CloudX
from today 25USD/mon.
4K
future XUSD/mon.
~75,000 (70%+30%)Subscribers @30KWD ARPU Pays for >700 5G sites less than 3 years
Revenue
Cost
ROI
Calc.
x Mbps
30 KD/m
2M KD/year
Spectrum
500$/site/m
OPEX
Basic
<3 Years
748
Sites
63000
HH User
12000
B2B User
-
50
100
150
200
250
300
350
1 7 13 19 25 31 37 43 49 55
Rev
en
ues &
Co
sts
(U
SD
mln
)
Time (in Months)
Simple 5G FWA Business Case
Cumulative Revenues Cumulative Costs
32 Months
L26 4T4R 20M
L21 4T4R 20M
L18 4T4R 20M
L8 2T2R 10M
100 Mbps DL
Speed
14 FWA Users/Cell
2018~MaxCa
p
2020
~
NR 100M (C-Band)
500 Mbps DL Speed
24 FWA Users/Cell
* Forecast KM: PRB threshold 70%; Active ratio 50%;Service duty ratio 15%; 256QAM LTE; 64T64R 16 flows C-band NR;
Peak: 1 Gbps10% MBB + 60% WBB
Peak: 6 Gbps15% MBB + 55% WBB
L26 4T4R 20M
L21 4T4R 20M
L18 4T4R 20M
L8 2T2R 10M
L18 4T4R 20M
L8 2T2R 10M
30 Mbps DL
Speed
11 FWA Users/Cell
2018~MidCap
Peak: 500 Mbps10% MBB + 60% WBB
FWA Network Planning Optimization Business Hall Maintenance
WTTx Suite
WTTx Map
Provisioning System Integration
CPE Management
WBB & MBB Comprehensive Analysis
Quick Provisioning Precise Post Analysis
• FWA Launch Map
• Outdoor CPE install Proposal(which wall,Height,Direction)
… …
•FWA Potential Area Identify
•Site Coverage/Capacity
Planning
•Cell Load by PRB Ratio
•Weak Coverage Evaluation
• WTTx Experience &
CPE Management
• Abnormal CPE
Detection
• WBB & MBB
Cooperative
Development
• …
• Accurate FWA Launch map accelerates market occupation
• Easy O&M Reduce TCO & Churn Rate
Fujian Launching 5G Based VR Service
VR Live
VR Gaming
VR Education VR MAX (like
IMAX)
VR Entertainment
User VR Portal
18Q1 18Q2 18Q4 19Q2
POC UAT
>1000 SubsFTTX Commercial
>10K Subs
5G
Commercial
>100K subs
VR Content
Cloud
Video Platform
Network
Device
BOSS
5G
120Mbps; <20ms
Huawei Cloud VR Ecosystem
Cloud VR TransportationDrone
60% CAGR (2020-2030) 58% CAGR (2020-2030)60% CAGR (2020-2023)
Source: Analysys Mason
HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential 35
Beyond 5G
2020
6G2028-2030
2030
Peak data rate:
1TbpseMBB
mMTC URLLC
Jitter:
0.1ms(+/-10ns)
Position:
Δ10cm
Link Budget:
+40dB
Connectiondensity:
10/m2
5G+
2020-2024
5G++
2024-2028
1
Orange 5G Vision Eric Hardouin, Orange Labs Research
November 2019
2
What is 5G for Orange?
5G refers to the technology standardized by 3GPP (as for 4G)
Includes 3GPP new radio (NR) and evolutions of LTE (4G radio access technology)
In a first phase, 5G deployments are based on the 4G core network
5G refers in addition to an IT-based network infrastructure
enabling local cloud (computing and storage) capabilities
enabling a convergent 5G core network managing wireline and radio accesses (fiber, 4G, NR, Wi-Fi…) – implementation is still under study
…which will be available in a second phase
3
5G connectivity services all delivered by the same network
key expectations
ambient connectivity and higher
minimum throughput: 50 Mbps “everywhere”
higher capacity and
experienced data rates Up to Gbps experienced rates new cm/mmWave spectrum Fixed Wireless Access (FWA) connect households with fiber- like experience in some areas expand the IoT for support of
vertical industries 99.999% reliability 1 to 10 ms latency improved energy efficiency x2 in 2020 x10 in 2025
Enhanced Mobile Broadband
Massive IoT Ultra-reliable and low latency
4
New usages will emerge T
HR
OU
GH
PU
T
10 Gbps
1 Gbps
100 Mbps
10 Mbps
1 Mbps
100 Kbps
10 Kbps
1 Kbps
100 bps
LATENCY
10 ms 1 ms 100 ms 1 s
AR/VR/MR in mobility 360°TV&Video
Autonomous Vehicle
Industry 4.0 & Robots
Smart Agriculture Smart City
Sensors
Actuators
Cloud / AI
Remote Operation
5
5G: Multiple frequencies for service delivery
Low frequency cells: 700MHz
Coverage Throughput
High frequency cells: 3.4 - 3.8GHz
Coverage Throughput
Millimeter wave cells: 26GHz +
Coverage Throughput
Smart cities
Digital workspace
Unmanned vehicles
Connected Healthcare
Industry 4.0
Our roadmap: commercial launch of 5G mostly in 2020
2012 First research work
2017 Demonstrators and proofs of concept 1st version of the NR 5G standard (NR = new radio) (Dec. 2017)
2018 End-to-end experiments 2nd version of the NR 5G standard (June 2018)
2019 5G tests in Orange 5G cities with customers Availability of the first terminals
2020 Progressive start of commercial service Availability of frequencies Increase of uses
2022-2025 New uses as standardisation evolves and 100% 5G networks are deployed (5G Standalone networks)
5G
Co-innovation on 5G on industrial sites with businesses
11 Orange 5G cities announced in European countries
5 NSA cities
1 NSA city Brussls
2 NSA cities since 10 Sept. 19
since 22 Oct. 19
since 5 Nov. 19
3 NSA cities
Commercial
Nantes
Lille
3 for commercial service 8 for friendly user trial +6 more to come
8
What will we have in NR initial deployments?
Enhanced mobile broadband in the 3.5 GHz and 700 MHz bands (2-3 Gbps max.)
New massive MIMO antennas, with new site architecture (RRU & antennas integrated)
4G latency on the public network, but reduced latency possible using on-premises mini core network (as in 4G), currently under experimentation
4G core-based architecture (“3x”) in most countries
LTE-M support for IoT
5G-CN
NR LTE
5G-CN
NR LTE
EPC
NR LTE
3x 4x 2
EPC
Existing Core Dual connectivity New Radio & LTE
New Core Single connectivity New Radio or LTE
New Core Dual connectivity New Radio & LTE
Architecture « 3x » NR Non Standalone (NSA)
Architecture « 2 » NR Standalone (SA)
Architecture « 4x » NR Non Standalone (NSA)
9
5G will further create value for industries, cities and communities
5G new features Massive IoT connectivity Ultra-reliable and low latency
communications Network slicing
Source: 5G PPP
Real-time data analytics processing capabilities Edge computing Artifical intelligence
10 Orange is a digital solutions integrator. We maximise technological synergies through orchestration
5G is a complementary tool to existing networks
2G 3G 4G
Wi-Fi
5G
LoRa
Fiber xDSL
LTE-M
SD-WAN
5G will bring a differentiating value
when specific specific service levels (e.g. latency, high reliability) are needed
when various services / types of objects with different QoS requirements (e.g. eMBB, critical IoT) are to be supported: 5G can unify the network infrastructure
for temporary coverage, e.g. for construction
for fiber back-up
5G for smart home / smart building
Many applications of smart home and smart building will continue to run on Wi-Fi or other unlicensed spectrum technologies (e.g. BLE, Zigbee)
Various architecture options for a private network From the 5G-ACIA White Paper ‘5G for Non-Public Networks for Industrial Scenarios’
Each vertical customer is driven by its requirements in terms of latency, security, reliability, coverage, complexity etc. These requirements in turn drive network architecture choices
A cost-efficient option is a private extension of the public network • A mutualized infrastructure costs
less than a dedicated physical infra • Slicing will facilitate extensions • Native indoor/outdoor service
continuity • Strong operator-grade security
Source: Glyn Roylance
Isolated Hybrid: Shared radio
Hybrid: Shared radio & Signaling Operated
The journey of private extensions of the public network
2019-2022: pre-slicing • 4G core network • LTE and/or NR • PMR: priorities and QoS diff. • edge computing capabilities
via a dedicated equipment
2022-2025: static / semi-dynamic slicing • 5G core network • Limited number of slices,
with manual or semi-automatic configurations
• facilitation of edge computing
2025+ dynamic slicing • E2E orchestration and
automation • dynamic and on-demand
slices production and management
14
Co-construction with users is essential for meaningful technology evolutions… and adoption
Factory of the future (Electronics sector)
Orange 5G co-innovation with enterprise customers
V2X communications and multi-access computing
AR for maintenance (energy management
and process automation)
Train monitoring/scheduling. High-speed, HD video
downloads
• to understand technical requirements • to experiment solutions • to prepare ecosystems and business
models
5G experimentation 5GPPP research projects
Key 5G initiatives within Orange
5G Lab B2C usages : AR, VR, 4K tests
with start ups and key suppliers
Orange Gardens (France)
5G for autonomous cars V2V, V2 environment, security
with automotive ecosystem
Linas-Montlhéry (France)
5G for enterprises Drones, robots, remote operations
with Nokia
Saclay (France)
4G+5G end to end
Technical and usages test
Lille, Douai (France)
Pure 5G end to end
Technical and usages test
Valencia (Spain)
New usages trials Performance trials
5G fiber (FWA) 26 GHz trial of usages with “Love” customers
Cluj (Romania)
16
Take aways
5G will provide an ambient and pervasive connectivity structuring the 2020-2030 digital society significantly enhanced mobile broadband user experience
support of the digital transformation of vertical industries
Commercial services mainly from 2020 with first functionalities Enhanced mobile broadband in the 3.5 GHz and 700 MHz bands
4G latency on the public network, but reduced latency possible using on-premises mini core network (as in 4G), currently under experimentation
5G core and slicing available from 2022
Collaboration with the future users is essential for the 5G success for the telecom industry to understand the customers technical requirements
to prepare the 5G ecosystem and business models
17
Thank you
18
Appendix
19
The 5G network infrastructure: convergent and IT-ized Distributed networking, computing and storage, enabling new services
Local PoP
(100 to 300)
Regional PoP
(10 to 30)
National Data
Center (1)
4G/5G
PON
4G/5G PON
4G/5G
On premise
Edge server
20
A software infrastructure delivering multiple services
5G offers the possibility to run specialised virtual networks “network slices” on a mutualized physical infrastructure
• slices will be established on demand, in minutes and only with the required functionalities for specific SLAs
• a mutualized infrastructure will cost less than dedicated physical networks
Slicing will enable priorisation and QoS differentiation
Static 4G/5G pre-slicing for 2019/2020
network slices: Virtual Sub-networks pre-programmed to serve specific services using dedicated or shared resources
TABLE RONDE
Débat autour de la 5G
Jean-Louis Demousseau
=> Eric HARDOUIN - ORANGE - VP, Ambient Connectivity Research
=> Merouane DEBBAH - HUAWEI - Director of the Mathematical and Algorithmic Sciences Lab
@IGNES_FR#smarthome#5G
Prochaine matinale : Jeudi 30 Janvier 2020Debriefing CES 2020
Pour vous inscrire : ignes.fr
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