future networks by itu-t sg 13
DESCRIPTION
Future Networks by ITU-T SG 13. Tatiana Kurakova Counsellor , ITU-T SG 13. WTSA-12 Regional Preparatory Meeting. Tashkent, Uzbekistan, 3 April 2012. Mission and Mandate of SG 13. Leading Study Group roles of ITU-T SG13. SG13 was NGN group. WTSA 2004. - PowerPoint PPT PresentationTRANSCRIPT
InternationalTelecommunicationUnion
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Tashkent, Uzbekistan, 3 April 2012
WTSA-12 Regional Preparatory Meeting
Future Networks by ITU-T SG 13
Tatiana KurakovaCounsellor, ITU-T SG 13
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Mission and Mandate of SG 13Leading Study Group roles of ITU-T SG13
• Lead study group for Future Networks and NGN• Lead study group on Mobility Management and
Fixed-Mobile Convergence• Lead study group to coordinate activities related
to cloud computing with other relevant study groups
• Lead study group for Future Networks and NGN• Lead study group on Mobility Management and
Fixed-Mobile Convergence• Lead study group to coordinate activities related
to cloud computing with other relevant study groups
SG13 was NGN group
Lead study group for NGN and Satellite
Lead study group for NGN and Satellite
SG13 covers ‘Future networks including mobile and NGN’
WTSA 2008
WTSA 2004
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Mission and Mandate of SG13
Study requirements, architecture, evolution and convergence of future networks
Studies focused on network aspects of mobile telecommunication networks,
including International Mobile Telecommunications (IMT), wireless Internet, convergence of mobile and fixed networks, mobility management, mobile multimedia network functions,
internetworking, interoperability Enhancements to existing ITU‑T Recommendations on IMT.
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Why new network? New network appears when important features
change Implementation technology, application, …
It’s possible to use old one, but optimized one is often more convenient and cheap We can access the internet with telephone & modems
??? Is it time to find a new network ???
NGN NGN features: packet-based, managed QoS, improved
security, separation of service/transport stratum, etc. These are good, may apply in the future, but the focus
may shift …?
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Definition of FN: A network able to provide services,
capabilities, and facilities difficult to provide using existing network technologies.
A Future Network is either:a)A new component network or an enhanced
version of an existing one, orb)A heterogeneous collection of new
component networks or of new and existing component networks that is operated as a single network.
Vision of Future Networks (Y.3001 – Future Networks:
Objectives and Design Goals)
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Vision of Future Networks (Y.3001)
4 objectives and12 design goals Service
awareness Data awareness
Social and economic awareness
Environmental awareness
Energy Consumption
Optimization
Service Universalization
Economic Incentives
Service Diversity
Functional Flexibility
Virtualization of Resources
Network Management
Mobility
Reliability and Security
Data Access
Identification
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Four Objectives Environment awareness
FNs should be environmental friendly.
Service awareness FNs should provide services
that are customized with the appropriate functions to meet the needs of applications and users.
Data awareness FNs should have architecture
that is optimized to handling enormous amount of data in a distributed environment.
Social-economic awareness FNs should have social-
economic incentives to reduce barriers to entry for the various participants of telecommunication sector.
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Design Goals, selection FNs should have device, system, and network level
technologies to improve power efficiency and to satisfy customer’s requests with minimum traffic (Power Consumption)
FNs should have mechanisms for retrieving data in a timely manner regardless of its location (Data Access)
FNs should be designed to provide sustainable competition environment to various participants in ecosystem of telecommunication by providing proper economic incentives (Economic Incentives)
FNs should accommodate a wide variety of traffic and support diversified services (Service Diversity)
FNs should facilitate and accelerate provision of convergent facilities in differing areas such as towns or the countryside, developed or developing countries (Service Universalization)
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Promising Technologies
Network Virtualization
In-system Network Management
Power Saving of Networks
Mobility-enhanced Distributed Networking
Network Optimization
Data-oriented Networking
Network supporting Economic Incentives
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Deliverables approved and under approval
process Supporting specific technology documents
Y.3011 (01/12) - Framework of network virtualization for future networks
Y.3021 (01/12) - Framework of energy saving for future networks
Y.3031 - Identification framework in future networks (in AAP LC till 28.03.12.)
Generic Handbook "Future Networks“ (02/12)
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Further Study issues on Future Networks
Future Steps
Functional requirements and Architectures Required capabilities and enablers Reference models and Reference Points Relevant functions to support features which identified in
requirements Identifications for Future Networks Operations and Managements requirements and
functions Collaborate to develop relevant protocols and necessary
mechanisms Service and application models and capabilities Migration models Started investigation on FN’s role for future disasters like
2011 Japan quake
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Workshop
Joint ITU-T SG13 and ISO/JTC1/SC 6 workshop on future networks standardization
Geneva, Switzerland, 11 June 2012
To identify commonalities and differences in the work progressed by each group, and to assess if those differences can be solved
To investigate which standards would be developed as common texts according to Recommendation ITU-T A.23, Annex A | ISO/IEC JTC 1 Standing Document 3
Workshop will be supported by remote participation tools
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Thank you for your attention
andwelcome to ITU-T Future
Networks group!
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Back up slides
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Deliverables under development
Y.SUN-overview - Overview of SUN (Smart Ubiquitous Networks) in TD 838 (NGN GSI)
Y.amnsa - Requirements and Architectural Framework for Auto Manageable Future Networks and Services in TD 841 (NGN GSI)
Y.FNID-config - Identifiers and their configuration methods for future networks in TD 840 (NGN GSI)
Y.FNsocio - Methods to Achieve Socio-Economic Design Goals and Objectives for Future Networks, TD 842 (NGN GSI)
Terminology in TD 182 GEN (SG13)
Project descriptions; information on research activities going in various places in TD 748 (NGN GSI)
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New deliverables under development
Brand new work
Y.FNsdn - Framework of software-defined networking for Future Networks in TD 843 (NGN GSI)
Y.FNsdn-fm - Requirements of formal specification and verification methods for software-defined networking in TD 844 (NGN GSI)
Y.Fnvirtreq - Requirement of network virtualization for Future Network in TD 845 (NGN GSI)
Y.FNDAN - Framework of Data Aware Networking for Future Networks in TD 846 (NGN GSI)
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Network Virtualization
Network virtualization is the technology that enables the creation of logically isolated network partitions over shared physical network infrastructures so that multiple heterogeneous virtual networks can simultaneously coexist over the shared infrastructures.
Also, network virtualization allows the aggregation of multiple resources and makes the aggregated resources appear as a single resource.
The detailed definition and framework of network virtualization are described in (ITU-T Y.3011 (01/12) “Framework of network virtualization for future networks”).