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EMERGING 5G TECHNOLOGIES AND INSIGHTS FROM EXPERIMENTS WITH SELECTED VERTICAL DOMAINS Prof. Panagiotis Demestichas, University of Piraeus Dr. Andreas Georgakopoulos, WINGS ICT Solutions 5G Summit, Thessaloniki, 11 July 2017 Outline 5G-PPP:


  1. EMERGING 5G TECHNOLOGIES AND INSIGHTS FROM EXPERIMENTS WITH SELECTED VERTICAL DOMAINS Prof. Panagiotis Demestichas, University of Piraeus Dr. Andreas Georgakopoulos, WINGS ICT Solutions 5G Summit, Thessaloniki, 11 July 2017

  2. Outline 5G-PPP: Enabling EU Leadership Fundamentals: Requirements/ Phase I Phase II Phase III Technology (2015-17) (2017-18) (2018-20) Trends Co-funding by EC (and private sources)  D. Future  A. Fundamentals  B. Current  C. Emerging Evolution- technology technology  Requirements Experiments- enablers activities  Technology Pilots-Trials Trends  Ongoing  New projects  Technology projects fine-tuning

  3. Fundamentals: Requirements on 5G  1000x more capacity and data rates  Towards 0-5ms E2E latency  1M/km 2 devices  500km/h high mobility  99.999% reliability  <90mins service deployment time  90% energy efficiency Source: 5G-PPP (https://5g-ppp.eu/)

  4. Fundamentals: 5G Technology Trends Potential for sharing between operators (e.g., spectrum, network elements, network segments) ‐ Activation of functional components ‐ Functional components deployment 1. RAT evolution to physical elements Repository of 6. 5G, WMB infrastructures: ‐ Physical element interconnection 2. Spectrum virtualized Cloud platforms offering services through functions abstractions, on demand, with elasticity, 3-4. Cell scalability, fairness Data 5. Software Nets Centers 6. Cloudification Core Communication, computing, storage resources Macro Micro 4. No-cell (e.g., Pico certain D2D, Femto M2M constructs) 6GHz 4GHz 2GHz 30GHz 60GHz 300GHz Applications connecting everyone and everything, Reference: P. Demestichas, A. Georgakopoulos, K. Tsagkaris, S. Kotrotsos, anywhere, anytime, "Intelligent 5G Networks: Managing 5G Wireless/Mobile Broadband," involving all types of media IEEE Vehicular Technology Magazine, vol.10, no.3, pp.41-50, Sept. 2015

  5. 5G-PPP Phase 1: Selected achievements 35+ projects Requirements/ Phase I Phase II Phase III Technology funded by EC (2015-17) (2017-18) (2018-20) Trends for 5G research QoS provision and capacity expansion - Advanced spectrum management New Radio below 6GHz Hardware / Software implementation aspects

  6. FANTASTIC-5G: New Air Interface below 6GHz Features Evaluation Flexible frame: ~50% reduced latency  New waveforms compared to LTE-A Latency ARP (LTE-A)-PRACH 1ms 1STAGE (Fantastic)-TTI 1ms 1STAGE (Fantastic)-TTI 0.5ms 1STAGE (Fantastic)-TTI 0.25ms 8 7  Frame design 6 Latency (ms) 5 4 3 2 1 0  Advanced coding 0 1000 2000 3000 4000 5000 6000 7000 Average Request Rate (requests/s/cell) New waveforms: QoS achievement with 30- WINGS system- 50% less cost (e.g. retransmissions) compared level simulator to OFDM  Advanced modulation SC1 (OFDM, GB=2sc) Data retranmissions (MMC) SC1 (P-OFDM, GB=2sc) 1.4 SC2 (OFDM, GB=4sc) SC2 (P-OFDM, GB=4sc) 1.3 SC3 (OFDM, GB=1sc) 1.2 Retranmissions per request SC3 (P-OFDM, GB=1sc) 1.1 SC4 (OFDM, GB=4sc)  Massive MIMO 1.0 SC4 (P-OFDM, GB=4sc) 0.9 0.8 0.7 0.6 0.5 0.4  Enhanced RRM 2.50 3.00 3.50 4.00 4.50 5.00 5.50 Offered load / cell (Mbps) Sample achievements : Over 20 patents filed, standardization etc.

  7. SPEED-5G: Spectrum optimization Features Evaluation Achievement of 5G performance with up to  Novel spectrum 70% less cost (signalling due to hierarchical management RAT/spectrum management)  Extended Dynamic Spectrum Assignment (eDSA) Hardware evaluation – Hardware in the loop  Lightly-licensed Results/ Traffic USRPs spectrum and generator Visualization licensed/unlicensed  New MAC/RRM

  8. Flex5Gware - Flexible and efficient HW/SW Features Evaluation  HW versatility and reconfigurability  HW-agnostic, flexible and cost-effective SW platforms 20 ms, up to 300 ms less reconfiguration time, in terms of optimization execution, compared to current optimization solutions  More capacity of 5G communication platforms  Less energy consumed by 5G communication 10% less power consumption, when moving platforms more functions to SW implementation

  9. 5G-PPP Phase 2 Verticals and technology One5G Clear5G Megacities and Factories of the Future (FoF)   Under-served areas Towards “zero” latency  E2E-aware  Ultra-reliable services  optimizations Configure and optimize radio network  Advanced link technologies and  architectures enhancements beyond Rel.15 Energy and spectral efficiency  Multi-service operation  Protocol enhancements  Advanced massive MIMO and RRM  5G-PHOS MATILDA Integrated optical Operational framework   technologies where software for 5G- Enhancing Fiber-Wireless  ready applications (FiWi) convergence Supporting virtual and physical network  Joint optical/wireless network  functions optimization Development of micro-services & VNFs  Cost-effective & energy-efficient 5G  network solutions Automotive, Smart cities, Industry 4.0,  Media Media delivery in smart venues 

  10. 5G-PPP Phase 3 Evolution-Experiments-Pilots-Trials  Verticals  Beyond Phase 3  Advanced automation  Exploitation  Energy management  Innovation Management  Water management  Funding instruments in conjunction with market  Trials forces

  11. Acknowledgment-References  5G-PPP: https://5g-ppp.eu/  One5G: https://5g-ppp.eu/one5g/  FANTASTIC-5G: http://fantastic-5g.eu/  SPEED-5G: http://speed-5g.eu/  Flex5Gware: http://www.flex5gware.eu/ The work is supported by the European Commission and 5G Public-Private Partnership (5G-PPP) and received funding from the EC H2020/5G-PPP programme One5G, FANTASTIC-5G, SPEED-5G, Flex5Gware projects

  12. Thank You!

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