5G PPP From Research to Standardization 5G PPP WG Pre-Standardization
5G PPP overview 5G Infrastructure Association General Assembly Board 5G PPP Partnership board European Commission Steering board Technology board WG 5G Vision and Societal Challenges WG 5G Pre-Standardization WP Spectrum WG1 WG 2 WG SME support Activity Community building and IPR Activity 5G International cooperation Project Project Project Project WG n Other activities 5G Initiative
5G PPP Key ambitions Delivering: Technologies Architectures Solutions to future 5G communication infrastructures Support of 5G PPP targeted outcomes in global standards is a priority. Program Ambitions (High-level KPIs) Providing 1000 times higher wireless area capacity and more varied service capabilities compared to 2010 Saving up to 90% of energy per service provided. The main focus will be in mobile communication networks where the dominating energy consumption comes from the radio access network Reducing the average service creation time cycle from 90 hours to 90 minutes Creating a secure, reliable and dependable Internet with a zero perceived downtime for services provision Facilitating very dense deployments of wireless communication links to connect over 7 trillion wireless devices serving over 7 billion people Enabling advanced user-controlled privacy 3
5G PPP Vision and Requirements 5G new service capabilities 5G supports efficiently three different types of traffic profiles high throughput for e.g. video services low energy for e.g. long living sensors low latency for e.g. mission critical services 5G covers network needs and contributes to digitalization of vertical markets automotive, transportation, manufacturing, banking, finance, insurance, food and agriculture education, media city management, energy, utilities, real estate, retail healthcare, government 5G scales to growing demand and different network layouts anticipated dramatic growth in number of terminal devices and continuous growth of traffic heterogeneous network layouts including satellite power consumption less or equal to current networks and reduced network management complexity 4
5G PPP Vision and Requirements Key Requirements 1,000 X in mobile data volume per geographical 10 Tb/s/km 2 1,000 X in number of connected devices 1M terminals/km 2 100 X in user data rate reaching a peak terminal data rate 10Gb/s Guaranteed user data rate >50Mb/s 1/10 X in energy consumption compared to 2010 1/5 X in end-to-end latency reaching 5 ms for e.g. tactile Internet and radio link latency reaching a target 1 ms for e.g. Vehicle to Vehicle communication 1/5 X in network management OPEX 1/1,000 X in service deployment time, deployment in 90 minutes Support user velocities up to 500km/h for ground transportation Accuracy of outdoor terminal location 1m These Key Requirements are not expected to be met all at the same time 5
5G PPP and the Vertical sectors Setting the requirements Requirements from vertical sectors for 5G are very important 5G PPP is have published a series of whitepapers on: Automotive, Health, Media & Entertainment, Energy, and Manufacturing requirements ( https://5g-ppp.eu/white-papers/ ) Challenges that will be difficult, even impossible, to meet with current LTE include: End-to-end latency down to 5ms (e.g. for autonomous driving) Improved coverage (e.g. deep indoor, rural areas and roads) Service continuity between different access technologies (e.g. for automotive, manufacturing and media & entertainment) At least 50 Mbps for immersive user experience everywhere (e.g. virtual reality and 4K videos) High reliability / QoS control (and potentially low latency) of 99.999% is required for low throughput applications ( ~Mbps) for health, energy and manufacturing Localization accuracy down to 10cm (e.g. for bicycles road safety applications) Low cost and energy efficiency is a must for energy and manufacturing applications High level of security (e.g. for vertical use cases) 6
TA7 5G for Future MTC Solutions TA6 Seamless Integr. of Satellite and Air Platforms TA4 Subsyst. for 5G Platforms TA17 Ubiq.5G Access TA9 Cost Efficient Optical Metro TA10 High Capacity Optical Core TA8 Cognitive Network Mngt 5G PPP research plan Identify societal and standardization needs Pre-structuring model phase 2 Application Layers TA15 (ICT 7) Open Blue TA TA16 (ICT 7) CSA TA20 (ICT 8) Open Blue TA TA21 (ICT 8) Open Blue TA TA18 NetApps Development and Verification Platform TA19 E2E NFV and SDN Holistic Operational Model TA13 Security, Privacy, Resilience, and High Availability TA1 5G Wireless System Design TA2 5G Low Band AI TA12 Foundations for SW Networks TA3 5G mmwave AI TA5 Novel Radio System Architecture TA14 Multi-Tenant / Domain Plug & Play Control Plane TA24 EUJ-01 1 TA26 EUK-01 TA22 Access Convergence 1 TA23 Access Convergence 2 TA25 EUJ-01 2 TA11 Converged 5G FlexHaul Network Physical Layer ICT 7 RIA ICT 8 RIA EUJ and EUK RIA ICT 8 IA Long-term research in phase 3 Note: The size and the orientation of the TAs boxes do not indicate the potential size or manpower of future Projects 7
5G Time-Line Mapping to 3GPP projected schedule 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 5G in 3GPP Rel-14 SI (SA1/RAN) Rel-15 4G in 3GPP Rel-12 Rel-13 Rel-14 Rel-15 WRC 15 ITU Vision Requirements / Method Wkp Proposals EC FP7 EC FP7 Pre-5G METIS, 5GNOW EC 5G PPP 5G PPP Set-up 5G PPP j1 5G PPP j2 WRC 19 Evaluation Rel-16 Rel-16 IMT-2020 Specifications 5G PPP j3 j1: Specification j2: Development j3: Experimentation SDN/NFV Mobile Networks ETSI, ONF, ONF, Open Open Daylight, OPNFV, Open OpenStack,... Stack Radio Experiments Winter Olympics in South Korea Note: Other Regions events under elaboration FIFA World Cup in Russia Summer Olympics in Japan Trials 5G Deployment and Commercialization 8
3GPP Time-line Phase 1 until H2 2018 Address a more urgent subset of the commercial needs Maps to 3GPP Rel-15 Phase 2 until December 2019 IMT 2020 submission Address all identified use-cases and requirements Maps to 3GPP Rel-16 9
5G PPP approach to standardization Develop a common view on use-cases and verticals Develop concepts addressing the scenarios (xmbb, umtc, mmtc) Research projects investigate technology component candidates First evaluations based on scenarios and use-cases Industry partners select relevant topics to drive in standardization Method to contribute Partners inputs to standardization bodies Understanding the verticals (interaction with relevant standardization organs to understand key requirements) 10
Relevant Standardization topics for 5G IMT-2020 Requirements ITU-R (WP5D) Access, fronthaul, system architecture 3GPP SDN/NFV/MEC Satellite communication component and satellite navigation system for 5G (ETSI/TC SES) New areas IoT, Machine-Type Communication Softwarization, control and orchestration Additional verticals 11
Standardization for verticals Vertical-specific Reason for verticals to use 5G solutions Ease of integration Economy-of-scale Specific requirements vs. Unified, standardized solutions Focus on requirements from vertical SDOs Interact with established vertical oriented SDOs Examples of SDOs for the Automotive industry C-ITS, ETSI, CEN and ISO. E.g., joint work between ISO TC204 WG18 and CEN TC278 WG16 12
5G Ecosystem and business aspects 5G is more than a new cellular radio interface Integrates multiple network technologies All-encompassing solution for the broad networking demands of the future New use cases MTC Integration of verticals New actors Open for SMEs and others Incumbents Infrastructure vs. network apps Regulatory aspects Security Privacy (who owns the information) 13
Conclusions 5G PPP driving EU research 5G is more than a new radio interface Standardization must consider an integrated network Other sectors/functions Trade-off RAN/CN May not fit in the traditional RAN/CN functional split How do business aspects impact 5G standardization Which role does telecom have Collaboration between ETSI and other SDOs critical to 5G success 14
Thank you for your attention! http://5g-ppp.eu 2015-10-20 15