5g champion 28 ghz 5g proof of concepts at 2018 winter
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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 Race to 5G


  1. 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. Race to 5G Services Requirements & Exploration Standardization & Prototypes 5G Services & Commercialization … 2014 2015 2016 2017 2018 2019 2020 2022 Soccer World cup PoC In Russia Olympic games Olympic games 5G Testbeds 5G Trials 5G Olympic games 5G Services (China) 5G Services (Korea) 5G Services (Japan) WRC-15 WRC-19 IMT Vision IMT Specifications ITU Requirements IMT Proposals Rel-13 Rel-14 Rel-15 Rel-16 Rel-17 • Scenarios & requirements • • WI low spectrum WI low spectrum • • SI for low spectrum SI for high spectrum enhancement • Channel modeling • WI for high spectrum for high spectrum Collaborative Metis 5G PPP Phase 1 5G PPP Phase 2 5G PPP Phase 3 Research • • • Vision building System Optimization Large scale trials EU-KR • • • Key enabling technologies Pre-Standardization Early standardization Exploration & validation | 2

  3. 5G CHAMPION: 1st 5G SYSTEM PoC at PyeongChang winter Olympics Short-latency interactive applications Broadband interactive applications Standardization & Prototypes 5G Services & Commercialization … 2019 2016 2017 2018 2020 Soccer World cup Olympic games 5G Olympic games | 3 In Russia 5G Services (Korea) 5G Services (Japan)

  4. 5G CHAMPION Consortium Europe Korea Industry Industry KT, SKT, Clever Logic, HFR, NOKIA, Intel, Telespazio, 4 8 Eluon, Insoft, Mobigen, SMRT Thales-Alenia Space Research Institute Research Institute CEA-Leti , iMinds, ETRI , Gwangiu Institute of 3 2 Fraunhover Institute Science and Technology University University Seoul National University, Dankook University of Oulu 1 3 University, Hanyang University | 4

  5. 5G CHAMPION Services at PyeongChang 3D application Content co-creation 360 media Multi-contents play KT SyncView TN 20+ Gbps SKT OmniPoint View LGU + Ultra-high Broadband 5G CHAMPION data-rate 5G CHAMPION (EU) 5G IoT-Safety 5G CHAMPION (KR) 5G IoT LoRa IoT AR and VR VR and AR contents 5G-SatCOM Multiparty holograms 5G-Satellite Real-time 5G Mobility interaction positioning 5G multi-UE interaction (full system integration) 5G Bus Drone racing | 5

  6. Ex. 5G CHAMPION Developed Technologies High gain antennas RF Transciver at 28 GHz Fixed beam  24,25-26,5 GHz (Korea)  Electronic reconfigurable beams  1 GHz BW Sub-array gain 11dBi  26,65-29,19 GHz (Europe)  400 + MHz BW Beam width 52 degrees  • RF-FE HW for 2 2x8 Antenna  submodules Totally 4 boards required for PoC HW  | 6

  7. Ex. 5G CHAMPION Developed Technologies High gain antennas RF Transciver at 28 GHz Fixed beam  24,25-26,5 GHz (Korea)  Electronic reconfigurable beams  1 GHz BW Sub-array gain 11dBi  26,65-29,19 GHz (Europe)  400 + MHz BW Beam width 52 degrees  • RF-FE HW for 2 2x8 Antenna  submodules Totally 4 boards required for PoC HW  | 7

  8. Ex. 5G CHAMPION Developed Technologies Electronically steerable flat-lens High gain antennas with electronically beam steering capabilities at 28 GHz Mechanical interface Beam-steering control signal Analogue beamforming solution based on flat-  lens or transmitarray antennas, Flat-lens illulinated by a focal source antenna  Focal source integrated on the RF transceiver, Phase-shift function on the flet-lens by using p-i-n  RF transceiver diodes, Base Band Unit Steering Control Unit Previosus proof-of-concept at CEA at 10 and 28  GHz. Digital processing unit Transmitarray at X-band Transmitarray at Ka-band 25 25 20 Magnitude (dBi) 15 15 10 Magnitude (dB) 5 5 0 -5 -5 -10 -15 -15 -20 -90 -75 -60 -45 -30 -15 0 15 30 45 60 75 90 θ (deg) -25 -90 -60 -30 0 30 60 90 Angle (degrees) A. Clemente, L. Dussopt, R. Sauleau, • 20×20 array (300×300 mm²), P. Potier, P. Pouliguen, "Wideband • 20×20 array (102×102 mm²), • 400-element Electronically Max. gain: 23.2 dBi, • Max. gain: 20.8 dBi, Reconfigurable Transmitarray in X • Efficiency: 52.9%, Band ," IEEE Transactions on • Efficiency: 58%, L. Di Palma, A. Clemente, L. Dussopt, R. Sauleau, P. • Bandwidth (-3 dB): 15.6%, Antennas and Propagation, vol. 61, “Circularly -polarized Potier, and P. Pouliguen, • Bandwidth (-3 dB): 14.6%, • no. 10, October 2013, pp. 5017-2027. Beamsteering: ±70° in all reconfigurable transmitarray in Ka-band with beam • Beamsteering: ±60° in all scanning and polarization switching capabilities,” IEEE azimutal planes. Transaction on Antennas and Propag., under review. azimutal planes. | 8

  9. 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 | 9

  10. Ex. 5G CHAMPION Developed Technologies : Satellite /”terrestrial” cellular network interworking E2E PoC Vertical Handover  Below 6 GHz (Low Power IoT)  Evalutaion of 5G Waveform performance  Satellite eNodeB Feeder in FSS band 5G Radio access network Radio interface in sub 6GHz band Core network User equipment with flexible radio eNodeB

  11. Conclusions First Collaborative PoC on 5G: 1 st PoC with real-life public transportation (mobility up to 60 Km/h ) • 1 st PoC including real-5G interactive services (virtual interactive gaming, VR) • 1 st PoC integrating different technologies (RF, Antennas , Software, HW, …) • 1 st PoC integrating satellites and terrestial networks • 5G CHAMPION showcases in a realistic environment (2018 Winter Olympic games): System interoperability: agile network design into a unique end-to-end system PoC 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 with IoT  Cooperative high precision outdoor positioning ( <1m )  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 ( 60 Km/h ) • Emulation of 500 Km/h high speed train backhaul • | 11

  12. Thank you for your attention Dr. Emilio Calvanese Strinati Visit us @: Smart Devices & Telecommunications Website: www.5g-champion.eu Strategy Program Director CEA-LETI LinkedIn group: 5G CHAMPION (H2020) Emilio.calvanese-strinati@cea.fr

  13. BACK UP SLIDES Nom événement | Nom Prénom

  14. 5G CHAMPION target KPIs 2 ms latency on the air 2.5 Gbit/s on mmW mobile backhaul ETSI 100 Mbit/s 3GPP mobile user IEEE 20Gbit/s 5G-SatCOM for NB-IoT Indoor Link <1 m Indoor-outdoor positioning SDN/NFV based on evolved packet core network EU-KR Coordination meeting, Seoul, Oct 11, 2016 | 14

  15. KR Transceiver-TRM Item Specification 25.1056 ~ 25.5376 GHz (for Northbound train lane) Operating frequency 25.9056 ~ 26.3376 GHz (for Southbound train lane) Band Width * 430MHz T/RX 705.6~1137.6MHz (for Northbound lane) DIF Frequency 2305.6 ~ 2737.6MHz (for Southbound lane) TDD Switching Time < 5usec TRX ISOLATION > 55dB Output Power > +17dBm Gain > 47dB Gain Flatness ± 2.0dB(TBD) Tx TX Spurious < -40dBc TX DIF INPUT -20dBm(Total) TX EVM < 3%(TBD) Noise Figure < 8dB Input Level -20dBm Max. ~ -61dBm Min. Gain > 51dB Rx Gain Flatness ± 2.0dB(TBD) ≥ 0.5/31.5dB , ≥15dB Gain Control DIF OUTPUT -10dBm(Total) POWER +12V / +6.5V DTA INTERFACE LED USB 1-PORT , 2-Color LED outside INTERFACE POWER /RoF AC220V / Analog Optic Source: provided by KMW (* Band Width will be extended two times next year) | 15

  16. Overall time line 2016 2017 2018 10 11 12 10 11 12 6 7 8 9 1 2 3 4 5 6 7 8 9 1 2 3 4 5 Future collaboration PoC at the Winter PoC components Architecture, KPIs specifications KPI and PoC Testing of Olympics mmW backhaul Testing and PoC Result Component Use-cases Integr. integration Cons. developments System vEPC 5G-satellite Demonstration 3GPP 3GPP IEEE IEEE Dissemination 3GPP IEEE IEEE Olympics EuCNC EU-KR Coordination meeting, Seoul, Oct 11, 2016 | 16

  17. Short-latency applications 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 EU-KR Coordinated Calls meeting, Seoul, Oct 11, 2016 - Confidential | 17

  18. Broadband applications 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 EU-KR Coordinated Calls meeting, Seoul, Oct 11, 2016 - Confidential | 18

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