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5G CHAMPION 28 GHz 5G Proof-of-Concepts at
2018 Winter Olympic games
“The first 5G system PoC in conjunction with the PyeongChang winter Olympics”
Dr. Emilio Calvanese Strinati, CEA-LETI
5G CHAMPION EU project coordinator
| 2
5G CHAMPION Consortium
University
Research Institute
Industry Industry
Research Institute
University
Europe Korea
3
4
1 University of Oulu
CEA-Leti, iMinds, Fraunhover Institute
NOKIA, Intel, Telespazio,
Thales-Alenia Space
KT, SKT, Clever Logic, HFR,
Eluon, Insoft, Mobigen, SMRT
ETRI, Gwangiu Institute of Science and Technology
Seoul National University, Dankook
University, Hanyang University 3
2
8
| 3
Race to 5G Services
Collaborative
Research
PoC
2018 2019 2020 2016 2017 2014 2015 2022 …
5G Services &
Commercialization
5G Testbeds
Key Enabling
Technologies
Olympic games
5G Services (Korea)
Soccer World cup
In Russia 5G Trials
Requirements & Exploration Standardization & Prototypes 5G Services & Commercialization
5G Olympic games
5G Services (Japan)
Olympic games
5G Services (China)
IMT Vision ITU Requirements IMT Proposals IMT Specifications
Rel-13 Rel-14
• Scenarios & requirements
• SI for low spectrum
• Channel modeling
for high spectrum
Rel-16 Rel-15 Rel-17
• WI low spectrum
• SI for high spectrum • WI low spectrum
enhancement
• WI for high spectrum
WRC-15 WRC-19
Metis 5G PPP Phase 2 5G PPP Phase 1 5G PPP Phase 3
• Vision building
• Key enabling technologies
Exploration & validation
• System Optimization
• Pre-Standardization • Large scale trials
• Early standardization
| 4
5G CHAMPION Time Line
| 5
5G CHAMPION: 1st 5G SYSTEM PoC at PyeongChang winter Olympics
Short-latency interactive applications
Broadband interactive applications
2018 2019 2020 2016 2017 … Olympic games
5G Services (Korea)
Soccer World cup
In Russia
Standardization & Prototypes 5G Services & Commercialization
5G Olympic games
5G Services (Japan)
| 6
KT
SKT
LGU+
5G CHAMPION
5G CHAMPION Services at PyeongChang
5G CHAMPION (EU)
5G CHAMPION (KR)
Ultra-high data-rate
AR and VR contents
Real-time interaction
Mobility
IoT
Broadband
OmniPoint View
SyncView
5G IoT-Safety
360 media
Multiparty holograms
Drone racing
Multi-contents play
5G IoT LoRa
5G multi-UE interaction
(full system integration) 5G Bus
TN 20+ Gbps
3D application
Content co-creation
5G-SatCOM
5G
positioning
5G-Satellite
VR and AR
Enable by remote interactive experience
| 7
Subsystem Features Inter-system interface
Radio access net. (WP3) High-capacity wireless backhaul and mobility AI3: EU Interface to UE
AI3: KR Interface to UE
Virtualized mobile core net. (WP4) Network orchestration and its functions I4-3:3RAT to Core network
Satellite-5G interoperability (WP5) SatCom and positioning I4-5: SatCom and Core network
AI-5: GNSS for positioning, UE-Sat
Explanation 5G CHAMPION system architecture definition
WP6
| 8
5G CHAMPION PoC Network
RAT LTE, mmW
RAT LTE, mmW
University of Oulu
5GTN
Cloud core
Services
MEC
Korea
KOREN
Cloud core
Services
MEC
5G CHAMPION
400 MHz BW, 26.65-29.19 GHz
2.5 Gbit/s mmW backhaul
5G-SAT
5G CHAMPION
1 GHz BW, 24-26.5 GHz
2.5+ Gbit/s mmW backhaul
High speed mobility
INTEROPERABILITY
Demonstrate remote interactive experience at Olympic Games
| 9
RF Transciver at 28 GHz
24,25-26,5 GHz (Korea) 1 GHz BW
26,65-29,19 GHz (Europe) • 400+ MHz BW
RF-FE HW for 2 2x8 Antenna
submodules
Totally 4 boards required for
PoC HW
Ex. 5G CHAMPION Developed Technologies
| 10
Ex. 5G CHAMPION Developed Technologies
High gain antennas
Fixed beam
Electronic reconfigurable
beams
Sub-array gain 11dBi
Beam width 52 degrees
| 11
High gain antennas with electronically beam steering capabilities at 28 GHz
Analogue beamforming solution based on flat-
lens or transmitarray antennas,
Flat-lens illulinated by a focal source antenna
integrated on the RF transceiver,
Phase-shift function on the flet-lens by using p-i-n
diodes,
Previosus proof-of-concept at CEA at 10 and 28
GHz.
Ex. 5G CHAMPION Developed Technologies
Transmitarray at Ka-band
L. Di Palma, A. Clemente, L. Dussopt, R. Sauleau, P.
Potier, and P. Pouliguen, “Circularly-polarized
reconfigurable transmitarray in Ka-band with beam
scanning and polarization switching capabilities,” IEEE
Transaction on Antennas and Propag., under review.
-90 -30 0 30 90Angle (degrees)
-60 60-25
25
5
-5
Magn
itu
de
(dB
)
-15
15
• 20×20 array (102×102 mm²),
• Max. gain: 20.8 dBi,
• Efficiency: 58%,
• Bandwidth (-3 dB): 14.6%,
• Beamsteering: ±60° in all
azimutal planes.
Transmitarray at X-band
A. Clemente, L. Dussopt, R. Sauleau,
P. Potier, P. Pouliguen, "Wideband
400-element Electronically
Reconfigurable Transmitarray in X
Band ," IEEE Transactions on
Antennas and Propagation, vol. 61,
no. 10, October 2013, pp. 5017-2027.
-90 -75 -60 -45 -30 -15 0 15 30 45 60 75 90-20
-15
-10
-5
0
5
10
15
20
25
θ (deg)
Mag
nit
ud
e (
dB
i)
• 20×20 array (300×300 mm²),
• Max. gain: 23.2 dBi,
• Efficiency: 52.9%,
• Bandwidth (-3 dB): 15.6%,
• Beamsteering: ±70° in all
azimutal planes.
Electronically steerable flat-lens
Focal source
RF transceiver
Me
ch
an
ica
l inte
rfac
e
Base Band Unit Steering Control Unit
Be
am
-ste
erin
g c
on
trol s
ign
al
Digital processing unit
| 12
5G CHAMPION EU Network & Trial Environnent
5G CHAMPION Unique features
Open test network available for research, test
technology & services and business models
mmW mobile backhaul (real environment)
SDN.NFV in EPC
Low/medium mobility management
Connectivity to 5G CHAMPION services
Interactive connetivity with 5G CHAMPION
Network in Korea
| 13
5G offers THE opportunity to integrate satellite/cellular service to 5G User Equipment’
Satellite MTC unified air interface concept
5G CHAMPION investigates the feasibility of enabling 5G User Equipment with a
“satellite ready” capability that could be activated upon software configuration
This requires:
• Flexible front ends implemented in User Equipment to operate in a wide range of frequency
bands sub 6 GHz;
• Flexible radio interface designed to provide narrow band and wide band communications
over extended coverage while optimizing the UE power consumption.
E2E PoC Determine which configurations (BW, MAC/PHY protocols settings) allow low bandwidth
direct service to 5G devices without any hardware modification to support MTC
Vertical Handover
Below 6 GHz (Low Power IoT)
Evalutaion of 5G Waveform performance when adapted to the specific requirements of low
cost, low power consumption and satellite constraints
5G CHAMPION Developed Technologies: Satellite/terrestrial cellular interworking
Radio interface in sub 6GHz band
5G Radio access network
Core network
User equipment with flexible radio
Feeder in FSS band
Satellite eNodeB
eNodeB
| 15
First Collaborative PoC on 5G: agile network design into a unique end-to-end system demonstration
• First PoC with real-life public transportation (mobility up to 60 Km/h)
• First PoC including real-5G interactive services (virtual gaming, VR)
• First PoC integrating satellites and terrestial networks
5G CHAMPION Will prove in a realistic environment (2018 Winter Olympic games)
High broadband access to multiple UEs:
massive users with 100 Mb/s in real outdoor environments
High mobility backhaul:
• real-field testing for mmW empowered city bus backhaul
• Emulation of 500 Km/h high speed train backhaul
System interoperability
• Intra 5G System interoperability Zero-latency applications: Multi-UE interaction & control with realtime control on different wireless
access (in Korea and EU) • Inter Satellite and 5G Systems interoperability (emulated)
5G air interface Cooperative high precision outdoor positioning (>1m)
Conclusions
Thank you for your attention
Dr. Emilio Calvanese Strinati Innovation and Scientific Director
CEA-LETI
Smart Devices, Security &
Telecommunications Program
BACK UP SLIDES
Nom événement | Nom Prénom
| 18
5G CHAMPION target KPIs
EU-KR Coordination meeting, Seoul, Oct 11, 2016
2 ms latency on the air
2.5 Gbit/s on mmW mobile backhaul
100 Mbit/s
mobile user
5G-SatCOM for NB-IoT <1 m Indoor-outdoor positioning
SDN/NFV based
on evolved packet core network
ETSI
3GPP
IEEE
20Gbit/s
Indoor Link
| 19
KR Transceiver-TRM
Source: provided by KMW
(* Band Width will be extended two times next year)
Item Specification
T/RX
Operating frequency 25.1056 ~ 25.5376 GHz (for Northbound train lane)
25.9056 ~ 26.3376 GHz (for Southbound train lane) Band Width * 430MHz
DIF Frequency 705.6~1137.6MHz (for Northbound lane)
2305.6 ~ 2737.6MHz (for Southbound lane) TDD Switching Time < 5usec
TRX ISOLATION > 55dB
Tx
Output Power > +17dBm Gain > 47dB
Gain Flatness ± 2.0dB(TBD) TX Spurious < -40dBc
TX DIF INPUT -20dBm(Total) TX EVM < 3%(TBD)
Rx
Noise Figure < 8dB Input Level -20dBm Max. ~ -61dBm Min.
Gain > 51dB Gain Flatness ± 2.0dB(TBD) Gain Control ≥ 0.5/31.5dB , ≥15dB DIF OUTPUT -10dBm(Total)
DTA INTERFACE POWER +12V / +6.5V
outside INTERFACE LED USB 1-PORT , 2-Color LED
POWER /RoF AC220V / Analog Optic
| 20
Overall time line
2016 2017
2018
6
7
8
9
10
11
12
1
2
3
4
5
6
7
8
9
10
11
12
1
2
3
4
5
Architecture, KPIs
mmW backhaul
vEPC
5G-satellite
Demonstration
Dissemination
KP
I a
nd
Po
C
spe
cific
atio
ns
Fu
ture
co
llab
ora
tio
n
Po
C a
t th
e W
inte
r O
lym
pic
s
Use-cases System
Component developments
Integr.
Test
ing
of
P
oC
co
mp
on
en
ts
Testing and PoC integration
Result Cons.
3GPP IEEE
3GPP IEEE 3GPP IEEE IEEE
EuCNC Olympics
EU-KR Coordination meeting, Seoul, Oct 11, 2016
| 21
Short-latency applications
EU-KR Coordinated Calls meeting, Seoul, Oct 11, 2016 - Confidential
• 5G CHAMPION technology: mmW backhaul, EPC, interoperability
• Candidate services: multi-user remote gaming, multi-user remote control
• KPIs: Intersystem interoperability, ~2ms latency over the air, ~5ms e2e latency,
2.5 Gbit/s mmW wireless backhaul, SDN/NFV in vEPC
| 22
Broadband applications
EU-KR Coordinated Calls meeting, Seoul, Oct 11, 2016 - Confidential
• 5G CHAMPION technology: mmW backhaul, EPC, interoperability, mobility management
• Candidate services: broadband connectivity
• KPIs: Intersystem interoperability, ~2ms latency over the air, 2.5 Gbit/s mmW
wireless backhaul, SDN/NFV in vEPC, 100 Mbit/s UE experience in stationary
and dynamic scenarios
| 23
5G CHAMPION Developped Technologies
EU-KR Coordination meeting, Seoul, Oct 11, 2016
• Core network
Interoperability
Orchestration
Mobility
management
monitoring
• SW flexibility in User Equipment
Enable evolution of UE
functionalities through SW
components
ETSI RRS work is supported
providing a framework for
technical solutions (Architecture,
Interfaces), Security &
Regulation Compliance
| 24
RF Transciver at 28 GHz
24,25-26,5 GHz (Korea) 1 GHz BW
26,65-29,19 GHz (Europe) • 400+ MHz BW
RF-FE HW for 2 2x8 Antenna
submodules
Totally 4 boards required for PoC HW
Ex. 5G CHAMPION Developed Technologies
High gain antennas
Fixed beam
Electronic reconfigurable beams
Sub-array gain 11dBi
Beam width 52 degrees
| 25
RF Transciver at 28 GHz
24,25-26,5 GHz (Korea) 1 GHz BW
26,65-29,19 GHz (Europe) • 400+ MHz BW
RF-FE HW for 2 2x8 Antenna
submodules
Totally 4 boards required for PoC HW
Ex. 5G CHAMPION Developed Technologies
High gain antennas
Fixed beam
Electronic reconfigurable beams
Sub-array gain 11dBi
Beam width 52 degrees
END
Nom événement | Nom Prénom