FP6 Proposal Analysis
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Transcript FP6 Proposal Analysis
Session 2
The Network of the Future:
State-of-the-art and IST Call 1 Objectives
Skopje, FYROM, 14-15 December 2006
Contents1/2
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Network Services and Equipment in the Overall European ICT market
Some Characteristics of the Current Internet
Some Issues with the Current Internet
Key Present-Day Trends
Network Research in FP6
– Key Objectives
– Landscape of FP6 “Broadband for All” Research
– FP6 Project Case Studies
– Landscape of FP6 “Mobile and Wireless Systems Beyond 3G” Research
– FP6 Project Case Studies
Key Emerging Themes…
… and the Accompanying Vision: the Future Network
NGN Services
Key Business Drivers
Contents2/2
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Roadmap of Network Research
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FP7 Approach to Network Research
The Network of the Future
– Budget and Funding Schemes
– Scope and Objectives
– The Network of the Future: Shopping List Overview
Further Information Resources
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Network Services and Equipment in
the Overall European ICT market
• Carrier services and network equipment have a > 50% share
of the total European ICT market (EU 25, € 614bn)
6,5%
44,4%
10,8%
14,8%
5,5%
Source: http://www.softwareleadership.info/
Some Characteristics of the Current
Internet
• Users are increasingly nomadic and expect the network to
adapt itself automatically to the terminal
• Main extensions such as multicast, QoS and IP mobility have
failed to be widely deployed
• Performance problems are usually taken care by patching
• Implementation of security solutions left to end-user or
closest organisation
• Frontier between data services and distribution services (TV,
Video On Demand) is becoming progressively more blurred
Some Issues with the Current
Internet1/2
• Current structure is becoming increasingly unable to
accommodate emerging technology disruptions and the
applications that it itself has inspired. Emerging problems
include:
– Bandwidth as a managed resource
• High bandwidths over-proportionally expensive
• Commercial providers slow to provide new competitive
services
– Monitoring and managing the end-end L1/L2 path
• Domains of responsibility – who pays for content
delivery and P2P?
• Equipment heterogeneity, etc
Some Issues with the Current
Internet2/2
– Current patch-work or point solutions ineffective
• Overall configuration sensitive and difficult
– A vast (and sometimes absurd) collection of protocol
stacks
– Large part of failures resulting from misconfigurations
– Security problems
– Definition, uptake and deployment of standards
• G.709, GFP, LCAS/VCAT
Key Present-Day Trends
• Developments within the present IP and Internet architectures
(no disruption at the architecture level)
– Increase capacity in order to handle the traffic of videorelated services
– Improve quality of services in terms of performance and
reliability
+
• Research to reverse the current design from
– User-defined services communication
– Multi-service networks multi-network services
Network Research in FP6
Strategic Objectives
• Two key directions
– Broadband for all
– Mobile and wireless systems beyond 3G
• Key objectives
– Optimised access technologies
– EU-wide consolidated approach on regulatory aspects and
standardised solutions
– EU-wide consolidated approach on appropriate enablers
for applications and services
– Technology, systems and services in the field of future
standards
– Spectrum requirements and spectrum usage
Landscape of FP6
“Broadband for All” Research
Low Cost Broadband Access Technologies
FP6 Project Case Study: CAPANINA
• CAPANINA: Communications from Aerial Platform Networks
delivering Broadband Information for All
• Objective:
– Develop broadband wireless capability from aerial platforms,
including High Altitude Platform Systems (HAPS) at speeds
up to 120 Mbps, to hard-to-reach fixed users and high speed
public transport vehicles travelling at up to 300 km/h
• Project type: Specific Targeted Research Project (STREP)
• Project website: http://www.capanina.org/
Low Cost Broadband Access Technologies
FP6 Project Case Study: POWERNET
• POWERNET: Broadband over powerlines that works and
meets the user expectations
• Objective:
– Develop and validate a “plug and play” Cognitive
Broadband over Power Lines (CBPL) communication
equipment that meets the regulatory requirements on
electro-magnetic requirements and can deliver high data
rates using low transmit power spectral density
• Project type: Specific Targeted Research Project (STREP)
• Project website: http://www.ist-powernet.org/
Landscape of FP6 “Mobile and Wireless
Systems Beyond 3G” Research
B3G System Architecture and Control
FP6 Project Case Study: ENABLE
• ENABLE: Enabling Efficient and Operational Mobility in Large
Heterogeneous IP Networks
• Objective:
– Enhance mobile IPv6 by addressing outstanding issues such as
service authorisation, interworking with IPv4, protocol reliability,
etc
– Enrich basic mobility service provided by Mobile IPv6 with
additional features, enabling the on-demand activation and selfconfiguration
of
specific
premium
network
features
(multihoming, QoS, etc)
• Project type: Specific Targeted Research Project (STREP)
• Project website:
Mesh and Sensor Networks
FP6 Project Case Study: MAGNET Beyond
• MAGNET Beyond: My Personal Adaptive Global Net
• Objective:
– Enable commercially viable personal networks (PNs) that
support resource-efficient, robust, ubiquitous personal
services in a secure, heterogeneous networking
environment for mobile users
• Project type: Integrated Project (IP)
• Project website:
Key Emerging Themes…
• Broadband
• Convergence, linkage of broadband and communications
• Pervasive low-cost equipment
• Scalability and pervasive networking
• Human-oriented
• Heterogeneous environment
– A single network cannot solve all problems
… and the Accompanying Vision
The Future Network
• Interconnection between the real and digital worlds
– Dynamic adaptation of the global information and
communication system to the user’s environment and
preferences
– Seamless inter-working of different technologies
• Global and generalised mobility, ABC
– Connection at any time through the best available network
• Self-organisation and autonomic networking
• Home networking
• Integration of wireless sensor networks (WSNs), personal
area networks, mobile ad-hoc networks, home networks,
mesh networks, and fixed and mobile access networks
The Future Network
NGN Services
• PSTN / ISDN emulation
– Supports legacy phones on an all-IP network leading to
operational advantages
• PSTN multi-media telephony
– Will provide PSTN / ISDN-like voice, video, data calls on IPphones, PCs, mobiles and handhelds
• Messaging and presence
– Instant messaging, MMS
• Value-added services
• IP-TV
– Video-on-Demand (VOD), near-VOD, broadcast TV, etc
• Regulatory requirements
– Number portability, emergency call, data privacy, data
retention
Source: Martin Niekus, “Global Standards, the Key Enabler for the Next Generation Network “, OECD Foresight Forum, October 2006“
The Future Network
Key Business Drivers1/2
• Telecommunications and the Internet – a growth market
– Telco markets – 8%; Internet – 100% (2001)
– Global telecoms market — $ 1,4 trillion (2006)
• Clash of IT and TELCO worlds
– Increasing range of IT communication services profits
from repeat engagement and online advertising – $ 2bn (2002)
– $ 18bn (2005)
– Introduction of Wi-Fi Internet access services by IT players
• E.g. Google, Mountain View, US
– IT moves to the mobile domain
• E.g. the Yahoo!Go service
Source: M. Handley, “Why the Internet Only Just Works”, BT
Technology Journal, July 2006
Source: CapGemini “Telcos vs. Internet Players”, September 2006; downloadable from
http://www.capgemini.com/resources/thought_leadership/telcos_vs_internet_players_worlds_in_collision/?d=1
The Future Network
Key Business Drivers2/2
Source: CapGemini “Telcos vs. Internet Players”, September 2006; downloadable from
http://www.capgemini.com/resources/thought_leadership/telcos_vs_internet_players_worlds_in_collision/?d=1
The Future Network
The Industry Response
• Fixed mobile convergence can solve the conflict between
business expansion and cost pressure
Source: Illka Lakaniemi, “Views on FMC”, OECD Convergence Forum, October 2006
The Future Network
Roadmap of Network Research
• Nano-bio, global P2P
• Grid computation
• Self-generated user-based
services
• Overlays, layer 2 switching,
semantic addressing
• Open spectrum
• Embedded devices
• Mesh Networks
• Satellite
Communications
SHORT-TERM
MID-TERM
LONG-TERM
FP7 Approach to Network Research
RTD Challenges and Objectives
Seventh Framework Programme 2007-2013 (FP7)
COOPERATION
Programme
IDEAS
Programme
PEOPLE
Programme
CAPACITIES
Programme
ICT Work
Programme 20072008 (Draft)
Challenge 1 “Pervasive
and Trusted Network and
Service Infrastructures”
Objective 1.1 “Service and
Software Architectures,
Infrastructures and Engineering”
1st Call –
24 April 2007
The Network of the Future
Budget and Funding Schemes
• Funding Schemes: CP (IP and STREP), NoE, CSA
– SSA for roadmapping and conference support
– CA for co-ordination with related national or regional
programmes or initiatives
• Indicative budget distribution: A total of € 200m, broken down
in
– CP 180 M€ (90%) of which
• A minimum of € 84m to IP
• A minimum of € 42m to STREP
– NoE € 14m
– CSA € 6m
The Network of the Future
Scope and Objectives
• Ubiquitous network infrastructures and architectures
• Optimized control, management and flexibility of the Future
Network Infrastructure
• Technologies and system architectures for the Future
Internet
KEY AIM
Overcome the scalability, flexibility, dependability and security
bottlenecks of today’s network and service infrastructures
– Deliver the Next Generation Network (NGN) and Next Generation
Internet (NGI)
The Network of the Future
Shopping List Overview
• Efficient radio access
• Heterogeneous network control and autonomic management
• Enhanced optical network technologies
• Beyond IP network and protocol design
• Overlay network concepts for testing and deployment and
open interoperability test-beds
• Scalability
– Delivering an order of magnitude increase in the number
of connected devices and enabling the emergence of
applications that are machine-to-machine or sensorbased - beyond RFID
For More Information
• Information Society Technologies –
Technologies
– http://cordis.europa.eu/ist/ct/index.html
D1
Communication
– http://cordis.europa.eu/ist/ct/pubar/statistics.htm
• eMobility – The Mobile and Wireless Communications Technology
Platform
– http://www.emobility.eu.org/
• BREAD – Broadband for All
– http://www.ist-bread.org/home.asp
• “Next Generation Networks: Evolution and Policy Considerations”,
OECD Foresight Forum
– http://www.oecd.org/document/12/0,2340,en_2649_33703_37392
780_1_1_1_1,00.html
THANK YOU!!!
• Raphael Koumeri
– [email protected]
• Angeliki Skamvetsaki
– [email protected]
SUPPORTING SLIDES