The 5G Infrastructure Public-Private Partnership - Networld2020 / 5G PPP Vision Group Expert Workshop Bologna, March 16, 2016
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The 5G Infrastructure
Public-Private Partnership
Networld2020 / 5G PPP Vision Group Expert Workshop
Bologna, March 16, 2016
18/03/2016 1
Horizon 2020 5G PPP Call 2 objectives
154 million € Funding including joint calls
• ICT-07-2017: 5G PPP Research and Validation of critical technologies and systems
• ICT-08-2017: 5G PPP Convergent Technologies
• (EUJ-01-2016: Joint Call EU-Japan, different timing)
• (EUK-01-2016: Joint Call EU-Korea, different timing)
• Call 2: Opening May 10, 2016, Closing November 8, 2016
Wireless access and radio High capacity elastic - Software Networks Ubiquitous 5G access Flexible network applications
network architecture/ • Software network architecture to support leveraging optical • Leveraging current intense research
optical networks access agnostic converged core network technologies
technologies • Support very high traffic and activities in relation to Virtualised
and control framework enabling next Network Functions (VNF) and
capacity increase originating • 5G access networks have
• Novel air interface technologies, generation services targeting development of a
from an (5G) heterogeneous to dramatically grow in
heterogeneous set of • Architecture leverages SDN/NFV paradigm multiplicity of VNF's useful to
access networks with user capacity, quality of
requirements (low rate sensors to integrate/manage next generation operators, service providers and
matching capabilities from service, responsiveness,
including mission critical M2M transport and optical technologies users
the core and metro energy efficiency and
to very high rate HD/3D TV and • Unified management of connectivity, with • Service providers or third party
environments, at ever number of connected
immersive services, supporting end to end security mobility and routing providers should be able to
increasing speeds and in more devices while keeping a
local and wide area systems), for flexible introduction of new services assemble virtualised 5G functions as
flexible and adaptive form sustainable cost
enabling usage of frequency • Scalability and efficiency related to "network apps" from NFV hosting
• New spectrally efficient, • To develop and assess new
bands above 6 GHz increasing deployment of software-based infrastructure, to deploy them in
adaptive transmission, optical access network
• Hardware architectures network equipment and functions as well
solutions based on the relevant network nodes, to
networking, control and
technologies and building blocks as corresponding more diverse services orchestrate and customise
management approaches to integrated optical device
• (Radio) Network functional and usages resources to provision user services
increase network capacity by prototypes
• Ease of deployment of multitenant
architectures and interfaces a factor of >100 while at the • Co-operative radio-optical • Target is for a cloud like 5G
leading to vision / reference networks, cost and energy efficiency, "five infrastructures, supporting network
same time providing high approaches are seen as
architecture for 5G 9" reliability, flexibility and perceived services, resource and service
service granularity, very promising, also to
"zero latency" where relevant orchestration
• Co-operative operation of guarantees for end-to-end cover intelligent
• Target is for a Network Operating System
heterogeneous access networks, optimization and QoS - interference cancellation • This environment also provides an
(NOS) with hardware and user interfaces open source development
including broadcast/multicast reducing power consumption, • Techniques to map 5G
to manage and orchestrate unified access framework for control
(terrestrial and satellite based) footprint and cost per bit and channels to optical
to computing, storage, memory and functionalities and application
and supporting SDN and maintaining reach transport and a co-design
networking resources developments
virtualization • Integration of new optical of the optical and wireless
• Management and security for virtualised
• Multi-tenancy for Radio Access transport and transmission interfaces and protocols • It also provides the link between the
networks and services network –terminal functions and
Network (RAN) sharing designs with novel network • Scalable demonstrators
• Network analytics tools, knowledge the app/content providers towards
control and management validated through typical
• Integration of Satellite Networks reasoning and cognition, may be extended standards developments
paradigms (e.g., SDN) are usage scenario
to support ubiquitous coverage, towards network operations
expected to enable
resilience, specific markets • Management of security across multiple
programmability
18/03/2016 virtualised domains 2
Source: EU Commission Work Program 2016-2017 / 5G Infrastructure Association.
H2020 5G Infrastructure PPP
Phase 2 Pre-structuring Model – TAs Portfolio
Application
Layers
TA15 (ICT 7) TA16 (ICT 7) TA20 (ICT 8) TA21 (ICT 8)
Open “Blue” TA CSA Open “Blue” TA Open “Blue” TA
TA18 TA19
NetApps Development and Verification Platform E2E NFV and SDN Holistic Operational Model
Cognitive Network Mngt
TA13 TA14
Security, Privacy, Resilience, and High Multi-Tenant / Domain
Availability Plug & Play Control Plane
TA25
EUJ-01 2
TA8
TA12
5G for Future MTC Solutions
Foundations for SW Networks TA11
Converged 5G
FlexHaul Network
Satellite and Air Platforms
TA5
Seamless Integr. of
TA1 Novel Radio System
5G Wireless System Architecture
TA7
5G Platforms
TA22
Subsyst. for
Ubiq.5G Access
Design Access
High Capacity
Optical Metro
Cost Efficient
Optical Core
TA6
TA4
TA24 Convergence 1
TA17
TA10
EUJ-01 1
TA9
TA2 TA3
5G 5G TA23
Low Band mmWave Access
TA26
AI AI Convergence 2
EUK-01
Physical
Layer ICT 7 RIA ICT 8 RIA EUJ and EUK RIA ICT 8 IA
Note: The size and the orientation of the TAs boxes do not indicate the potential size or manpower of future Projects
18/03/2016 3
Source: 5G Infrastructure Association.
Original time plan in 5G PPP
Call 1 published Submission deadline Start of first projects mid 2015
December 11, 2013 Release
November 12
25, 2014 Release 13
2013 2014 2015 2016
Exploratory phase: • Detailed system • Detailed system optimization
• Detailed requirements research and • Consensus building on globally to be
identified frequency bands (consider
• Identify most promising functional development
result of WRC15)
architectures and technologies • Basis for Pan European
• Validation of concepts and early
• Build on previous research work experimental trials
infrastructure • Contributions to initial global
standardization activities
• Preparation of WRC18/19
Release 14 Release 15
2017 2018 2019 2020
• Support of initial international • Extension of trials to non ICT stakeholders
standardization Winter Olympics, Korea • Detailed standardization process Summer Olympics,bands
• New frequency Japan
available for
• Support of regulatory bodies for allocation trial network deployment and initial
of newly identified frequency bands commercial deployment
• Implementation of large trials
FIFAforWorld
validation
Cup, Russia 2018 • CloseFIFAtoWorld Cup,systems
commercial Qatar 2022
under close to real world conditions deployment under real world
Large scale demonstrations and trials, scalability testing, etc. conditions to prepare economic
exploitation on global basis
European trial under discussion combined eventually with a bigger event
18/03/2016 4
Source: 5G Infrastructure Association.
5G PPP Vision and Requirements
5G roadmap
18/03/2016 5
Source: 5G Infrastructure Association: 5G Empowering vertical industries White Paper, February 2016.Phases and expected timelines for IMT-2020
(ITU-R)
Source: ITU-R: IMT Vision – Framework and overall objectives of the future development of IMT for 2020 and beyond. Recommendation
ITU-R M.2083-0 (09/2015), https://www.itu.int/dms_pubrec/itu-r/rec/m/R-REC-M.2083-0-201509-I!!PDF-E.pdf.
18/03/2016 73GPP tentative time plan on 5G standardisation 18/03/2016 8 Source:3GPP, March 2015, http://www.3gpp.org/news-events/3gpp-news/1674-timeline_5g.
Why Collaborative research?
International consensus building at an early stage
Common interest Competition
• Increasing investment in solutions
• Increasing IPR portfolios time
Chance for Products and markets
consensus in competitive environment
building
Chance for consensus building decreasing
Pre-competitive early Standardization in early
collaborative research competitive environment
Increased
Grade of
maturity makes consensus building difficult
concept
maturity
Increasing
IPRs IPRs portfolios make consensus building difficult
• Horizon 2020 is open for organizations from outside of Europe
18/03/2016 9
Source: NetWorld2020.Changing environment
• Impact on 5G PPP Phase III (Work Program 2018 – 20)
– 5G PPP Contractual Arrangement signed in December 2013
– Since 2013 environment is changing with
starting standardisation process and
announcements on early deployments globally
– Identification of these research and innovation topics (Expert Group
workshop on March 16, 2016), which
will not be available for first phase of standardisation and early
deployments as well as
further evolution of first 5G systems
– Justification of funding for such topics, which will not be in the
competitive phase
• Early trials and basic “commercial” deployments require allocated
frequency spectrum
– Evolution of IMT-2020 / LTE-Advanced
– First 5G capabilities
– Europe: spectrum below 6 GHz
– Japan: Operators are pushing that spectrum will be allocated already in 2016
– Korea and US in addition around 28 GHz
Source: 5G Infrastructure Association.
18/03/2016 10Development of Work Program 2018 – 2020
for final 3 years of Horizon 2020 – EC view
• Scoping paper by June 2016, which will already fix budgets at large
• Work Program is planned to cover the last 3 years of H2020 (2018
– 20), with 420 M€ funding for 5G PPP
• First call of Work Program 2018 – 20 will open early in parallel to
ongoing Phase 2 projects
• Phased approach to focus
– first on the Scoping Paper in April 2016 on higher-level strategic contributions
including major research and innovation areas and budget allocations and
– in second half of 2016 on more detailed contributions to the development of
the Work Program
• Several whitepapers from NetWorld2020 and 5G PPP already
available as input
• Build a story around phasing in standardisation and fast changing
global environment with respect to necessary future research
Source: 5G Infrastructure Association.
18/03/2016 115G PPP Phase III
Tentative ideas
* Disclaimer: the views expressed are those of the author and cannot be regarded as stating an official position of the Europea n Commissionhttp://5g-ppp.eu
Thank you for your
attention!
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