1. - 1 - DPNM European Initiative on Future Internet: 4WARD Mi-jung Choi DP&NM Lab. Dept. of Computer Science & Engineering POSTECH, Korea Email : mjchoi@postech.ac.kr@postech.ac.kr

2. - 2 - DPNM Outline  What is Future Internet?  Research Roadmap of Future Internet  4WARD –Overview –Research Goal –Key Issues –Work Packages  Summary

3. - 3 - DPNM What is Future Internet?  Need to rethink the fundamental assumptions and design decisions underlying its current architecture  Two principal ways in which to evolve or change a system –Evolutionary approach (Incremental): a system is moved from one state to another with incremental patches –Revolutionary approach (Clean-slate): the system is redesigned from scratch to offer improved abstractions and/or performance, while providing similar functionality based on new core principles  Future Internet? –Clean Slate design of the Internet’s architecture to satisfy the growing demands –Management issues of Future Internet also need to be considered from the stage of design  Research Goal for Future Internet –Performing research for Future Internet and designing new network architectures –Building an experimental facility

4. - 4 - DPNM Research Roadmaps of Future Internet 2000200520102015 Now 200220072013 EU NGI FP6FP7 Euro-NGI(€5M) FIRE Euro-FGI 2006 US 2006 PlanetLab 2002 NSF GENI($365M) GENI NSF NeTS-Find($40M) 2008-2009 Innovative Technology JP e-JAPAN 2002 u-JAPAN NGN R1/2 NGN R3 2004 JGN IIPost JGN II 2008 Overlay Architecture Architecture Projects Overlay Projects Future Network 2007

5. - 5 - DPNM 4WARD – Overview (1)  Architecture and Design for the Future Internet  A project of the European Union in the 7th framework program and develops methods, concepts and architectures for networks of the future  Duration –Jan. 2008 ~ Dec. 2009  Web Site –www.4ward-project.eu  Cost –Total cost: 23.245 M€ –EC contribution: 14.448 M€

6. - 6 - DPNM 4WARD – Overview (2)  Project coordinator –Henrik Abramowicz, Ericsson  Partners –37 projects partners –Ericsson –Nokia Siemens Networks –Siemens Program and System Engineering SRL Brasov –Alcatel-Lucent –NEC Europe Ltd. –Deutsche Telekom AG –France Telecom –Telecom Italia S.p.A. –Telekomunikacja Polska S.A. –Portugal Telecom Inovacao –SA Telefonica –University: Paris 6, Berlin, Surrey, Basel, Bremen, Lancaster, Lisbon, etc. –SICS: Swedish Institute of Computer Science AB. –Etc.

7. - 7 - DPNM 4WARD Partners

8. - 8 - DPNM 4WARD’s Research Goal  Overcomes current Internet architectural impasse through a set of radical architectural approaches built on mobile and wireless background  Improve ability to design interoperable and complementary families of network architecture  Enable the co-existence of multiple networks on common platforms  Enhance the utility of networks by making them self- managing  Increase robustness and efficiency of networks by leveraging diversity  Improve application support by a new information-centric paradigm

9. - 9 - DPNM 4WARD’s Strategic Objective  By creating a family of dependable and interoperable networks providing direct and ubiquitous access to information –Increase the competitiveness of the European networking industry –Improve the quality of life for European citizens  Goal –Make the development of networks and networked applications faster and easier, leading to both more advanced and more affordable communication services

10. - 10 - DPNM Key Issues  Interoperability –A mew approach to a multitude of networks –Create a framework for many networks to bloom as part of a family of interoperable networks that can coexist and complement each other  Self-Management –Have a ‘default-on’ management entity, which is an inseparable part of the network itself –Capable of adjusting itself to difference network sizes, configurations, and external conditions  Active Network Path –Consider a path as an active part of the network that controls itself and provides customized transport services  Information-Centric –Build a network as a network of information and services where services and information are mobile and distributed

11. - 11 - DPNM Technical Approach (1)  Combine –Innovations needed to improve the operation of any single network architecture –Multiple different and specialized network architecture  Work –On innovations overcoming the shortcomings of current communication networks (Internet) –In a framework that allows the coexistence, interoperability, and complementarity of several network architecture –In an integrated fashion, avoiding pitfalls like the current Internet’s ‘patch on a patch’ approach

12. - 12 - DPNM Technical Approach (2)  Structured into 6 work packages –3 packages: consider innovations for a single network architecture –1 package: study the use of virtualization to allow multiple networking architectures to coexist on the same infrastructure –1 package: Look at the design and development of interoperable architectures –1 package: Ensure that all envisaged developments take proper account of essential non-technical issues

13. - 13 - DPNM Work Phases

14. - 14 - DPNM Projects  6 work packages

15. - 15 - DPNM Work Packages

16. - 16 - DPNM WP1: BIRD  Business Innovation, Regulation and Dissemination  To understand and assess both how new technology may foster new usages and business models as well as how new usages and societal trends may require new or enhanced technologies  To investigate implications of policy and governance on networking technologies (including regulation) and vice versa  Dissemination and External Collaboration

17. - 17 - DPNM WP2: New APC  New Architectural Principles and Concepts

18. - 18 - DPNM WP3: VNET  Network Virtualisation  Task 3.1: Virtualisation Architecture and Scenarios  Task 3.2: Virtualisation of Network Resources  Task 3.3: Provisioning of Virtual Networks and Virtualisation Management  Task 3.4: Evaluation  Joint Tasks with other work packages: –Task TC23: Joint Task with NewAPC –Task TC34: Joint Task with InNetMgmt –Task TC356: Joint Task with ForMux and NetInf

19. - 19 - DPNM WP4: INM  In Network Management  Evaluate and demonstrate the INM approach to embedded autonomic self- management for selected scenarios  Providing abstractions and a framework for a self-organizing management plane  Design and implement a thin pervasive self-organizing network management plane –provide access to and communication between local self-management functions embedded in the network –organize itself within a given network and adapts to dynamic changes of network topology and structure  Develop registration and access mechanisms for embedded self-descriptive management functions provided by participating nodes within the management plane  Define a scheme, strategies, and protocols for collaborative monitoring, self- optimizing, and self-healing  Investigate search engine technologies for retrieval of information from an information base that is unstructured, incomplete, timed out and/or faulty  Apply the in-network management approach to virtual networks and a network of information investigated in WP3 and WP6

20. - 20 - DPNM WP5: ForMux  Forwarding and Multiplexing for Generic Paths (ForMux)  Task 5.1: Path generalizations in a functional architecture  Task 5.2: Generic paths by cooperation and coding mechanisms  Task 5.3: Realizing a generic path by routing  Task 5.4: Interactions of multiple generic paths  Task 5.5: Mobility by generic path  Task 5.6: Evaluation in proof-of-concept testbeds  Task TC356: Joint Task with WP3(VNet) and WP6 (NetInf)

21. - 21 - DPNM WP6: NetInf  Network of Information  Task 6-1: NetInf Architecture  Task 6-2: Information modeling  Task 6-3: Basic dissemination mechanisms and services  Task 6-4: Non- dissemination and delay-sensitive services  Task 6-5: NetInf evaluation  Task C46: Joint task of WP4 (InNetMgmt) and WP6 (NetInf)  Task C356: Joint task of WP3 (Vnet), WP5 (ForMux) and WP6 (NetInf)

22. - 22 - DPNM WPs Summary

23. - 23 - DPNM 4WARD Interactions

24. - 24 - DPNM Summary  Inherent integration of self-management  Increasing the amount of network features reliably available to end-user applications –Like mobility, QoS, security but also scalability, deploy-ability  Driving innovation and new business opportunities into the network layer  Defining a systems approach to the Future Internet  Drive the work from the mobile and wireless perspectives

25. - 25 - DPNM Question and Discussion