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Ambient Networks Die Weiterentwicklung mobiler Netztechnik nach UMTS

Ambient Networks Die Weiterentwicklung mobiler Netztechnik nach UMTS. Andreas Schieder Ericsson Research.

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Ambient Networks Die Weiterentwicklung mobiler Netztechnik nach UMTS

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  1. Ambient NetworksDie Weiterentwicklung mobiler Netztechnik nach UMTS Andreas SchiederEricsson Research This presentation has been produced in the context of the Ambient Networks Project. The Ambient Networks Project is part of the European Community's Sixth Framework Program for research and is as such funded by the European Commission. All information in this presentation is provided "as is" and no guarantee or warranty is given that the information is fit for any particular purpose. The user thereof uses the information at its sole risk and liability. For the avoidance of all doubts, the European Commission has no liability in respect of this presentation, which is merely representing the authors view. FFV2006 - Ambient Networks

  2. Outline • AN architecture and basic concepts • Network Composition • Multi-Radio Access • Media Delivery • Dissemination and outlook to phase 2 FFV2006 - Ambient Networks

  3. AN architecture and basic concepts FFV2006 - Ambient Networks

  4. WWI organisation in Phase I WWI Collaboration WWI Steering Board WWI Coordination Team User requirements System architecture Operability MobiLife AmbientNetworks WINNER E2R Resilience Quality of Service Security and trust Validation Reconfigurability Current WWI Cross Issues Current WWI Integrated Projects Chaired by Ambient Networks Source: WWI FFV2006 - Ambient Networks

  5. Phase 2 2006-2007 Phase 3 2008-2009 Phase 1 2004-2005 Phase 3 Phase 2 Establishing the Establishing the Work Work - - Areas Areas Technology Technology System Synthesis System Synthesis Ambient Networks Ambient Networks Development Development Concept and its Concept and its Feasibility Feasibility I: Concepts I: Concepts Architecture, Architecture, Concepts & Concepts & Architecture: Architecture: and and Standards Standards Architecture Design Architecture Design Scalability, Scalability, Evolvability Evolvability Architecture Architecture II: Key II: Key Detailed Specification, Detailed Specification, Feasibility, Feasibility, Optimisation for Optimisation for Technical Development, Technical Development, Performance Performance Functions of AN Functions of AN Performance Performance Technical Control Space Control Space and Deployment and Deployment Problems Problems III: Business III: Business Interfaces and Interfaces and Commercial Commercial Business Feasibility Business Interfaces Market Dissemination Viability Viability Integration across Integration across WWI, WWI, IV: IV: Validation, Validation, Usability/Networks Usability/Networks Usability/Networks Usability/Networks Prototyping Prototyping Market Market Prototypes Prototypes Test Cases Test Cases Dissemination Dissemination and Validation and Validation Ambient Networks project phases FFV2006 - Ambient Networks

  6. Requirements posed on the AN Architecture • Heterogeneous Networks • Mobility • Composition • Security and Privacy • Backward Compatibility and Migration • Network Robustness and Fault Tolerance • Quality of Service • Multi-Domain Support • Accountability • Context Awareness • Extensibility of the Network Services Provided • Application Innovation and Usability FFV2006 - Ambient Networks

  7. Reference Points AmbientServiceInterface AmbientConnectivity Multi-RadioResourceManagement ContextInformation AmbientNetworkInterface AmbientNetworkInterface RoutingGroupInformation OverlaySupportLayer AmbientResourceInterface AgreementEstablishment Naming TrafficEngineering An Ambient Network and its links to the environment Ambient Control Space FFV2006 - Ambient Networks

  8. ACS Architecture FFV2006 - Ambient Networks

  9. The Ambient Connectivity Abstraction Ambient Network A Ambient Network B Application Session Application Applications AmbientNetworkInterface BearerEndpoint BearerEndpoint BearerAbstraction Intermediary Bearer Flow Endpoint “AN-link” “AN-node” “AN-node” FlowEndpoint Flow Transit ConnectivityAbstraction Flow Node Connectivity Link Path FFV2006 - Ambient Networks

  10. DHT Internetworking Architecture At the core, we do not want a global DHT of all nodes. Instead, peer’s core NID router (NR3) is passed in the packets. A small DHT can look up the locator of NR3. DNS retrieves Node ID of peer (B), and Node ID of peer’s core router (NR3) LD1 (IPv4 Core) Locator domains have independent address spaces DNS Nodes have HIP-like Node IDs, self-generated public keys End-to-end security is based on NIDs. NR2 NR3 LD2 LD3 DNS DNS Domains are connected by “NID routers” that route based on destination NIDs A B FFV2006 - Ambient Networks

  11. Integrates local mobility, end-to-end mobility, and network mobility Even makes network-based multi-homing possible A B B A A A (a) (b) (c) B A A Traits of the Internetworking Concept • Initial handshake (~ HIP) provides an always-on security model; subsequent packets are protected • The handshake also has basic DoS protection • Additionally, nodes can manage their NIDs and NID routers in a Hi3-like manner to provide network-based DoS protection • NIDs can be changed on the fly for privacy reasons, and NID routers provide location privacy FFV2006 - Ambient Networks

  12. Network Composition FFV2006 - Ambient Networks

  13. Motivation for Composition • The central concept of Ambient Networks is Composition • Composition is… • a uniform, dynamic procedure for network interworking on the control plane • Uniform procedure • independent of network type and technology • Dynamic procedure • minimize human intervention • Control Plane Interworking regarding • routing, addressing, mobility, QoS, security, charging,.. FFV2006 - Ambient Networks

  14. Composition Use Cases • Types of Composition • Network Integration • Involved networks merge into one common network • E.g. creation of a PAN • Control Delegation or Control Sharing • One AN delegates certain control functions to the other AN • 3GPP-WLAN interworking:WLAN delegates authentication, authorization and charging to 3GPP network • Network Interworking • Cooperation according to the Composition Agreement but no control delegation • E.g. dynamic roaming agreements Increasing control plane cooperation FFV2006 - Ambient Networks

  15. Composition - Standardization • The Ambient Networks Project established aStudy Item “Network Composition” in 3GPP SA1 • TR 22.980 „Network composition feasibility study; (Release 7)” • Content • Purpose and benefits of composition • Use cases • Requirement • Composition Process • New functionality in 3GPP networks • Relation to other functionality in evolving 3GPP architecture • AIPN,… FFV2006 - Ambient Networks

  16. Multi-Radio Access FFV2006 - Ambient Networks

  17. Resource sharing with cooperating local access provider Resource sharing between cooperating operators Access Provider Multi-radio multi-hop Access Provider Local Access Provider 3G Radio 4G Radio Relaying Terminal 4G Radio 3G Radio WLAN Relaying Network WiMAX Load management and instant mapping of data flows between accesses ( ) 4G Radio WLAN 4G Radio Terminal Simultaneous/seamless multi-operator access Research Concepts FFV2006 - Ambient Networks

  18. Time Scale of Access Selection 1ms 10ms 100ms 1s 10s 1min 1h 1d Link Quality BasedAccess Selection Fast channel variations(scattering, diffraction, fast fading) Slow channel variations(shadowing, slow fading, cell change) Stability of multi-hop routes Type of Access Selection Load Based Access Selection Fast load variations(interference, data bursts, user handover, ...) Slow load variations(new users / sessions, handover) Fast Access Selection Slow Access Selection Dynamic Access Selection Algorithms • Taxonomy of Algorithms FFV2006 - Ambient Networks

  19. Access Selection Results FFV2006 - Ambient Networks

  20. Media Delivery FFV2006 - Ambient Networks

  21. Media Delivery using SSONs • Establishment of Service-Specific Overlay Networks (SSONs) using Bearers • SSONs are independent virtual networks for every media delivery service (or group of services) • SSONs allow dynamically tailoring the network to the specific needs of a service • Why do we need SSONs? • Means to include network-side media processors into end-to-end media delivery path • Control application of media functions (where, how, which costs, etc.) • What do SSONs achieve? • SSONs decouple the configuration of virtual networks from the underlying network • SSONs enable flexible configuration of virtual networks in terms of • Topology • Addressing • Routing • QoS FFV2006 - Ambient Networks

  22. Ambient NetworksDissemination and outlook to phase 2 FFV2006 - Ambient Networks

  23. Standardisation • >30 contributions in total • IETF submissions to hip and nsis • several hip submissions for security extensions • Nsis extensions • IEEE 802.21 submissions • Triggering framework submitted • 3GPP SI „composition“ • Approved at TSG SA Meeting #30, 05 - 07 December 2005, supported by Siemens, Ericsson, Nokia, Vodafone, NTT DoCoMo, NEC FFV2006 - Ambient Networks

  24. Structure of Work in Phase 2 FFV2006 - Ambient Networks

  25. Thank you for your attention! Questions? www.ambient-networks.org FFV2006 - Ambient Networks

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