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Session 2 The Network of the Future: State-of-the-art and IST Call 1 Objectives Skopje, FYROM, 14-15 December 2006. Contents 1/2. Network Services and Equipment in the Overall European ICT market Some Characteristics of the Current Internet - PowerPoint PPT PresentationTRANSCRIPT
Session 2The Network of the Future: State-of-the-art and IST Call 1 Objectives
Skopje, FYROM, 14-15 December 2006
Session 2The Network of the Future: State-of-the-art and IST Call 1 Objectives
Skopje, FYROM, 14-15 December 2006
Contents1/2Contents1/2
• 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
Contents2/2Contents2/2
• Roadmap of Network Research
• 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
Network Services and Equipment in the Overall European ICT market
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)
Source: http://www.softwareleadership.info/
14,8%
10,8%
5,5%
44,4% 6,5%
Some Characteristics of the Current Internet
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
• 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 Internet1/2
Some Issues with the Current Internet1/2
– 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
Some Issues with the Current Internet2/2
Some Issues with the Current Internet2/2
Key Present-Day TrendsKey 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 video-related 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 FP6Strategic Objectives
Network Research in FP6Strategic 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
Landscape of FP6 “Broadband for All” Research
Low Cost Broadband Access TechnologiesFP6 Project Case Study: CAPANINA
Low Cost Broadband Access TechnologiesFP6 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
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
Landscape of FP6 “Mobile and Wireless Systems Beyond 3G” Research
B3G System Architecture and ControlFP6 Project Case Study: ENABLE
B3G System Architecture and ControlFP6 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 self-configuration of specific premium network features (multihoming, QoS, etc)
• Project type: Specific Targeted Research Project (STREP)
• Project website:
Mesh and Sensor NetworksFP6 Project Case Study: MAGNET Beyond
Mesh and Sensor NetworksFP6 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…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 VisionThe Future Network
… and the Accompanying VisionThe 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 NetworkNGN Services
The Future NetworkNGN 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 IP-phones, 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 NetworkKey Business Drivers1/2
The Future NetworkKey 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: 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
Source: M. Handley, “Why the Internet Only Just Works”, BT Technology Journal, July 2006
The Future Network Key Business Drivers2/2
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
• Fixed mobile convergence can solve the conflict between business expansion and cost pressure
The Future NetworkThe Industry Response
The Future NetworkThe Industry Response
Source: Illka Lakaniemi, “Views on FMC”, OECD Convergence Forum, October 2006
• Mesh Networks• Satellite
Communications
The Future Network Roadmap of Network Research
The Future Network Roadmap of Network Research
• Overlays, layer 2 switching, semantic addressing
• Open spectrum• Embedded devices
• Nano-bio, global P2P• Grid computation• Self-generated user-based
services
SHORT-TERM MID-TERM LONG-TERM
FP7 Approach to Network ResearchRTD Challenges and Objectives
FP7 Approach to Network ResearchRTD Challenges and Objectives
Seventh Framework Programme 2007-2013 (FP7)
COOPERATION Programme
IDEAS Programme
PEOPLE Programme
CAPACITIES Programme
ICT Work Programme 2007-
2008 (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
• 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 FutureBudget and Funding Schemes
The Network of the FutureBudget and Funding Schemes
• Ubiquitous network infrastructures and architectures
• Optimized control, management and flexibility of the Future Network Infrastructure
• Technologies and system architectures for the Future Internet
The Network of the FutureScope and Objectives
The Network of the FutureScope and Objectives
KEY AIMOvercome 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)
• 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 sensor-based - beyond RFID
The Network of the Future Shopping List Overview
The Network of the Future Shopping List Overview
• Information Society Technologies – D1 Communication Technologies
– http://cordis.europa.eu/ist/ct/index.html
– 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_37392780_1_1_1_1,00.html
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