Update on the 5G PPPUpdate on the 5G PPP
Pre FIA Workshop: Pre FIA Workshop:
Radio Access and Spectrum Radio Access and Spectrum innovations for 5Ginnovations for 5G
20 March, Athens20 March, Athens
"The views expressed in this presentation are those of the author and do not necessarily reflect the views of the European Commission"
Bernard BaraniBernard BaraniEEuropean Commission - DG CONNECT
Deputy Head of Unit Network Technologies
High Economic importance
Strategic sector, European assets
European Initiative for future networks
5G programmes starting globally
5G PPP Motivations
The Future: Very wide range of requirements
Storage
Processing
Communi-cation
• From IoT to U-HDTV, ubiquity;• "Verticals" requirements• Tactile Internet
• True ubiquitous "ABC" access• Traffic growth (spectrum) and complexity• Cost /energy• ……
Strand Radio network architecture & technologies1000 mobile traffic increase, versatile requirementsNetwork architecture, new use cases, new frequency bands, latency;Increased frequency re-use (10), versatile low-cost radio access infrastructure (IoT to > 1Gbps) + low energyFlexible backhaul solutions, efficient signallingArchitecture for 5G "transceivers" and micro-servers, key HW building blocks to support various spectrum usage scenariosPreparing for large scale demonstrators and test-beds (possibly leveraging existing experimental facilities)
"Advanced 5G Network Infrastructure for the Future Internet"
H2020 - ICT 14
Strand Convergence beyond last mileIntegration, unified controlUbiquitous access continuumCooperative, cognitive fixed and heterogeneous resources, with fixed optical access reaching at least 10 Gb/sReuse and sharing of functionalities
Strand Network managementOpex, capex, QoS, QoENetwork (SON) and service management (metrics)SDN+ autonomic; Security across domains
ICT 14
Type of Action: Research and Innovation – Large projects
Budget: € 98 Million
Expected ImpactsAt macro level, strong EU industrial base % of markets
At societal level, a wider spectrum of applications and services at lower cost, with increased resilience and continuity, with higher efficiency of resources usage
At operational level,
1000 times higher mobile data volume per geographical area.
-10 times to 100 times higher number of connected devices.
-10 times to 100 times higher typical user data rate.
-10 times lower energy consumption for low power Machine type communication.
-5 times reduced End-to-End latency (5ms for 4G-LTE).
-Ubiquitous 5G access including in low density areas .
-European industry driving the development of 5G standards, of 5G SEP Availability of a scalable management framework reduction of network management opex by at least 20%. Availability of security/authentication metrics across multi domain virtualised networks.
ICT 14
Strand Virtualisation and SW NetworksFlexibility, beyond firmware implementationsVirtualisation of net.functions, VM concurrent access to resources, migrationOrchestration of resources, OS like, cross domain configurabilityIntegration service layers with network layers, reconfigurability and lanscape aware decisionOpenness, OTT integration, E2E SLA, third party providers
ICT 14
Type of Action: Innovation – Large projects
Budget: € 25 Million
Expected ImpactsAt macro level, i) NFV/SDN industrial capability in Europe by 2020; ii) large scale operational deployment of NFV/SDN by 2020.
At operational level, -- network function implementation through generic IT servers (target) rather than on non-programmable specific firmware (today).-- Fast deployment of large scale service platforms on top of network infrastructures, from 90 days (today) to 90 minutes (target).-- Trustworthy interoperability across multiple operational domains, networks and data centres. -NB: International co-operation with countries having bold R&I initiatives in the field (Korea, Japan, US, China) may be considered on a win-win basis.
ICT 14
Support ActionsCoherence and impactProgramme integration, analysis of outcomesSocietal issuesInternational activitiesSupport to standardsSupport to policiesWeb site, Roadmaps, including experimental facilities
ICT 14
Type of Action: SA – Small projects
Budget: € 2 Million
- NB: International co-operation with countries having bold R&I initiatives in the field (Korea, Japan, US, China) may be considered on a win-win basis.
Projects selected for funding… (R&I)•Will establish new knowledge ("that has innovation potential")
and/or
•Will explore the feasibility of a new or improved technology, product, process, service or solution. •May include basic and applied research, technology development and integration, testing and validation on a small-scale prototype in a laboratory or simulated environment. •May contain closely connected but limited demonstration or pilot activities aiming to show technical feasibility in a near to operational environment. •Will be funded at 100% Bulk of activity expected to be in "innovation-aware" mid-term R&D Small-scale innovation-type activities are expected
R&I actions
Excellence criterion (excerpt)
••Extent that proposed work is ambitious, has innovation potential, and is beyond the state of the art
Impact criterion (excerpt)
••Enhancing innovation capacity and integration of new knowledge;••…developing innovations meeting the needs of European and global markets; and, where relevant, by delivering such innovations to the markets
Quality & efficiency of the implementation (excerpt)
••Appropriateness of the management structures and procedures, including risk and innovation management.
Innovation included
5G PPP Status
•PPP Signature 17 December 2013•MWC high level event, 5G PPP•Full Fledged association: end of March•Pre FIA 5G workshop: 17 March•FIA PPP event: 20 March (Athens) www.fi-athens.eu•Constituency building event April, 28, Paris•Submission date 25 November 2014 (€125 million)
•Projects start early 2015 See http://5g-ppp.eu/
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Planned Actions
Preparation of call 1 proposals by stakeholders
Preparation of consultations for the next work-programme 2016-17;
Structuring of the work under an operational setting that reflects the 5G PPP technological tracks, still remaining agile and operational;
Establishment of the partnership board;
Definition of the required methodologies to verify progress towards KPI's;
Definition of a PPP communication plan.
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Planned actions
Demonstration Strategy, short term vs long term planInternational cooperation approachStandardisation approachProcurement study
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Thank you!
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Network Technologieshttp://cordis.europa.eu/fp7/ict/future-networks/
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Network technologiesICT 5: Smart networks & novel Internet architectures ICT 6: Smart optical & wireless network technologies
Software, services and cloud computingICT 7: Advanced cloud infrastructures and servicesICT 8: ECP: pre-commercial and joint procurementICT 9: Tools and methods for software development
Net InnovationICT 10: Collective awareness platforms for sustainability and
social innovationICT 13: Web entrepreneurship
Experimental Platforms
ICT 11: FIRE+ (Future Internet Research & Experimentation)ICT 12: Integrating experiments and facilities in FIRE+
Future Internet in WP 2014-15
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ICT 14: PPP on advanced 5G network infrastructure for the Future Internet
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Deadline 23th April 2014:
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• ICT 5: smart networks & novel Internet architectures (24 M€)
• ICT 6: smart optical & wireless network technologies (30 M€)
• ICT 7: advanced cloud infrastructures and services (73 M€)
• ICT 9: tools and methods for software development (25 M€)
• ICT 11: FIRE+ (31.5 M€)
• ICT 13: Web entrepreneurship (10 M€)
Calls in 2014
Deadline 25th November 2014:
Deadline 10th April 2014:
• ICT 14: 5G PPP (125 M€)
• EU-Japan R&D cooperation on Net Futures (6 M€)
ICT 5. Smart Networks and novel Internet Architectures
•Novel architectural and networking approaches to information delivery and access
Evolution from a 'host centric' to a more efficient internet architecture able to support a growing number of services, processes and business models.
•Scope (Small Research and Innovation Projects)
•- novel architecture approaches (naming, routing, caching..)•- built-in security and privacy (content vs channel)•- generalised mobility and integration with IT•- Beyond content, IoT•- scalability and migration strategies•- experimental pilots
24 M€
ICT 6. Smart optical and wireless network technologies
Innovative network technologies addressing the increasing traffic and the multiplicity of usages
Optical networks, Scope:
- Dynamic mgmt for lower cost and more flexible use of resources, flexible BW across domains;
- VHSA at ≥ 10 Gbps per user (in 10 years) and 100 Gbps later (including VLC);
- Intra and inter data centre connectivity;
- Optical transmission technologies;
- Attention must be given to legacy and regulation, cost- and energy-efficiency.
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M€
Wireless networks, Scope:
- Dynamic control of resources through disruptive new paradigms ("femtocell"-like) – prosumers;
- Optimised spectrum use (cognitive radio, spectrum aggregation, higher bands -90GHz-, advanced mods/cods, beamforming);
- Energy efficiency and new usages;
- Hybrid combination of terrestrial and satellite infrastructures to address coverage, optimised spectrum use and network resilience.
ICT 6. Smart optical and wireless network technologies
ICT 6. Smart optical and wireless network technologies
• Support Actions
• - Technological roadmaps;• - Dissemination (incl. annual conference);• - Standardisation;• - Integration of results;• - Operational and economic metrics;• - Strategies for validation and demonstration.
• Type of actions: Coordination and Support Actions
1 M€
Research & Innovation Actions (large actions expected, 25 M€)
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• Creation, reconfiguration and/or extension of experimental infrastructures
• Experimentation leveraging GÉANT
• Experimentation-as-a-Service (EaaS)
• Virtual Experimentation
At least 50% of funding for users, experiments, etc.
ICT 11 - 2014
ICT 11 – FIRE+ (Future Internet Research & Experimentation)
Coordination & Support Actions (1.5 M€)
25
• Ideas for prototyping and experimentation, testing and validation – from identification to actual experimentation
ICT 11 - 2014
Innovation Actions (large actions, 5 M€)
• Identification of European, national and regional experimental facilities for integration into FIRE+
• Roadmap: future needs for advancednetworking experimentation
• International cooperation
ICT 11 – FIRE+ (Future Internet Research & Experimentation)
Research and innovation:• High performance heterogeneous cloud infrastructures• Federated cloud networking• Dynamic configuration, automated provisioning and
orchestration of cloud resources• Automated discovery and composition of services
(cloud of public services)• Cloud security
66 M€; small/large projects addressing one/more themes
ICT 7 - 2014
ICT 7 - Advanced cloud infrastructures and services
The challenge: infrastructures, methods and tools for high performance, adaptive cloud applications and services
Innovation platforms for trusted cloud systems
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• Open source software for innovative and trusted cloud-based services
5 M€; small projects; Innovation
Coordination and support actions• Reference models for SLAs in the cloud.
Legal, economic and societal factors
• Collaboration among research projects
2 M€; CSA
ICT 7 - 2014
ICT 7 - Advanced cloud infrastructures and services
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ICT 9 - 2014
• Software tools and methods for large, complex and data-intensive systems
• Software architectures and tools for highly distributed applications
25 M€; Research and innovation;small actions expected
ICT 9 – Tools and methods for software development
The challenge: Achieving quality levels required for complex & critical systems (reliability, resilience and automatic adaptation)
ICT 13: Web Entrepreneurship - Innovation
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Develop and provide new services for web entrepreneurs, building upon existing local ecosystems or hubs working together:•to launch and scale up new ventures•to link web entrepreneurs with mentors across Europe•to create exposure to new financing opportunities•to link acceleration programmes across Europe
6 M€; small projects expected
ICT 13 - 2014
ICT 13: Web Entrepreneurship - CSAs (4 M€)
Strengthen the environment for web entrepreneurship in Europe and exploit synergies across stakeholder communities
EU-Japan R&D Cooperation in Net Futures
30
EU - Japan
• Technologies combining big data, internet of things in the cloud
• Optical communications super high rate core
• Access networks for densely located users
• Experimentation and development on federated Japan – EU testbeds
(Research and Innovation actions – 1.5 M€ each)
Developing common positions, standards and interoperable systems for critical networks and computing platforms
ICT 5. Smart Networks and novel Internet Architectures 2/2
1. Expected impact:
- Key scientific publications (ACM Sigcomm)
- Contributions to standards (IRTF..)
- FI architecture network of researchers and users
- Links with related International developments, (US, Korea and Japan) standards
- Migration/deployment strategies and roadmaps
- Closer integration of datacom and telecom industries in EU
- Contribution towards large scale validation trials
ICT 6. Smart optical and wireless network technologies 5/5
• Expected Impact- Optical NW industrial capability in Europe: ≥ 20% of the global market;
- Energy consumption of basic infra reduced by a factor of ~10;
- Spectral radiation exposure decreased through low-EMF technologies;
- 10 Gbps/user in 10 yrs; 100 Gbps/user in longer term (fixed accesses);
- Support metro and core NWs with Pbps throughput and Tbps i/f speeds;
- Reach higher spectral efficiency; targeting a 10-fold increase;
- Enable new apps through the efficient use of higher spectrum bands;
- Achieve ubiquitous access to critical/societal applications;
- Open standards for w'less and optical comms and associated SEPs;
- Cooperation with US, Japan and Korea as priority countries (win win)
Type of Actions: Research and Innovation – Small projects
29 M€
5G PPP - Three phases in EU
• Phase III (2017-2018)• Large-scale trials
• Phase II (2016-2017)• System optimisation
Phase I (2014-2015) • Research (I) work
• Ignition phase (2012-2013)• Project METIS, 5GNOW,
iJOIN, TROPIC, Mobile Cloud Networking, COMBO, MOTO, PHYLAWS..
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