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KRnet 2014 1
Future Network Standardization
2014. 06. 24.
강 신 각
기반표준연구실
KRnet 2014
Contents
Introduction
Future Network Standardization in JTC 1/SC 6
Future Network Standardization in ITU-T SG 13
Collaboration for Future Network Standardization
Q & A
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Introduction
Future Internet
Future of the Internet
Future Network(s)
Network(s) of the Future
Term used in Standardization Body such as JTC 1/SC 6, ITU-T SG 13
ISO/IEC JTC 1/SC 6: Future Network
ITU-T SG 13: Future Networks
Relevant Activities
USA: GENI, FIND
EU/FP7: FIRE
Japan: AKARI
Korea: Future Internet, Future Network(s)
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Future Network Standardization
in ISO/IEC JTC 1/SC 6
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Scope of ISO/IEC JTC 1/SC 6
ISO/IEC JTC 1: “Information Technology” JTC 1/SC 6 : “Telecommunications and Information
Exchange between Systems”
WG 1 – Services and protocols in the physical and data link layers
WG 7 – Network, Transport, and Future Network Changed in JTC 1/SC 6 June 2011 meeting
Including Architecture, Upper Layers and Applications related issues except the scope of other WGs of SC 6
WG 10 – Directory, ASN.1 and Registration
Newly established in June 2013
Merge existing WG8(Directory) and WG9(ASN.1 and Registration Authorities)
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History of FN Standardization in SC6
SC 6 Meeting, April 2007 (Xian, China)
Initial Discussions in HoD/C Meeting
SC 6 Ad Hoc Meeting on Future Network, 5-6 Sept. 2007 (Paris, France)
SC 6/WG 7, April 2008 (Geneva, Switzerland)
Initiated NP ballot in JTC 1/SC 6
Title: Future Network: Problem Statement and Requirements
SC 6/WG 7, Nov. 2008 (Montreux, Switzerland)
Approved as a New Project by 10 National Bodies
China, Czech Republic, France, Japan, Korea, Spain, UK, Germany, Netherlands, Switzerland
SC 6/WG 7, June 2009 (Tokyo, Japan)
Initial discussions on FN Naming and Addressing
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JTC 1/SC 6’s Considerations on FN
Future Network is the Network of the Future It does not mean only the networking aspects
It includes all aspects of Networking as well as Services
ITU-T’s Term: Future Networks
ITU-T SG13 expects various FNs in the future
It also includes Evolutionary Approach
No specific network technologies are pre-assumed Clean-slate design Approach
It means that a system and network are designed from scratch. It should be based on long-term, revolutionary approach. In clean-slate design approach, the backward compatibility may not be required.
This work is distinct from NGN and will not compromise nor endanger currently operated networks
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FN Standardization in JTC 1/SC 6
Developing Technical Report on Future Network
ISO/IEC TR 29181: Future Network - Problem statement and requirements
Approved as a New Project in Nov. 2008
Multi-part standards document: 29181-1 ~ 29181-7
Existing 29181-x projects has been completed in May 2014
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SC6/WG7 meetings (2013~2014)
2013.02.04~02.06: SC6/WG7 Interim meeting (London, U.K)
2013.06.17~06.21: SC6 meeting (Seoul, Korea)
2013.10.08~10.11: SC6/WG7 Interim meeting
(Chongqing, China)
2014.02.17~02.21: SC6 meeting (Ottawa, Canada)
2014.05.28.~05.30: SC6/WG7 Interim meeting
(Beijing, China)
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Projects for 29181
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Std. No. Title Editors
29181-1 Overall aspects M. K. Shin, J. Alcober
29181-2 Naming and Addressing J. Xie, K. Zhang, H.K. Kahng
29181-3 Switching and Routing J. Grant, H.K. Kahng
29181-4 Mobility S.J. Koh, M. Roshanaei
29181-5 Security Y. Liu, H. Wang
29181-6 Media Transport Francisco Iglesias, Sung Hei Kim, Xavier Miguelez
29181-7 Service Composition Alberto Gonzalez, Jong-Hwa Yi, Ramon Matin de Pozuelo
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ISO/IEC 29181-1: Overall aspects
29181-1: Future Networks : Problem Statement and Requirements – Overall aspects
Scope
Motivation of FN
Definition, general concept, and terminologies of FN
Services and applications in FN
Problems with current networks
Design goals and high-level requirements for FN
Milestones for standardization on Future Network
Definition of Future Network The FN is the network of the future which is made on clean-slate
design approach as well as incremental design approach. It should provide futuristic capabilities and services beyond the limitations of the current network including the Internet.
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ISO/IEC 29181-1: Overall aspects
Vision and Roadmap of Future Network
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Today’s Internet (IPv4)
Incremental Design (IPv6, NGN)
Future InternetClean-slate
Design
2015 ~ 2020
Federation
미래서비스미래
서비스Future Services
Servicemigration
Future Network
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ISO/IEC 29181-1: Overall aspects
The key features that the FN services should support include:
Context Awareness
Dynamic Adaptiveness
Self Organization and Self-Configuration
Self-Detection and Self-Healing
Distributed control
Mass data control
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ISO/IEC 29181-1: Overall aspects
New Design Goals and High level requirements for Future Network Scalability
Naming and addressing scheme
Security
Mobility
Customizable quality of service
Heterogeneity and network virtualization
Service awareness
Media transport
New layered architecture
Management
Energy efficiency
Economic incentives
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ISO/IEC 29181-2: Naming and Addressing
29181-2, FNPSR - Part 2: Naming and Addressing Scope
It describes the general characteristics of Future Network NAS Schemes including;
Requirements: The general characteristics of Future Network are discussed and their impact on NAS design
Problem Statement: the characteristics and deficiencies of existing NAS in old networks will be discussed
Gap analysis: Examines the gap between old network NAS and future network performance expectations
Design Objectives: Specify objectives and principles for NAS design. The design principles are major rules that FN-NAS designers should consider and follow in their design activities.
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ISO/IEC 29181-2: Naming and Addressing
Scope (Cont.)
Technical Challenges: a list of major technical challenges, overcoming of which would help assure that the new NAS will be able to provide solid technical support from the base level to satisfy the ambitious objectives of Future Network
Development Guidance: How to future NAS standardization can progress
Excluded from this TR is discussion of specific NAS mechanisms unless they are used as examples to explain technical concepts
Rather than presentation of a specific technology, the report will focus on the general issues surrounding naming and addressing
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ISO/IEC 29181-3: Switching and Routing
29181-3, FNPSR - Part 3: Switching and Routing Scope
contains the problem statement and requirements for switching and routing in the Future Network, in particular:
description of the requirements for carrying data over digital networks;
description of the ways in which these requirements are not satisfied by current networks;
functional architecture for switching and routing in the Future Network; and
requirements for control plane information flows for finding, setting up, and tearing down routes
The requirements include support for both current (“legacy”) and future (“new”) switching technologies, to aid the transition between them
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ISO/IEC 29181-4: Mobility
29181-4, FNPSR - Part 4: Mobility Scope
Describes the problem statements of current network and the requirements for Future Network in the mobility perspective. Specifically, this Technical Report mainly specifies;
Problems of the current network in mobile environment;
Requirements for mobility support in Future Network;
information on Existing mobility control schemes in the current network;
Examples of high-level mobility control architecture for Future Network
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ISO/IEC 29181-5: Security
29181-5, FNPSR - Part 5: Security Scope
It describes the general characteristics of Future Network Security Schemes including;
Requirements: The general characteristics of FN are discussed and their impact on FN Security design
Problem Statement: the characteristics and deficiencies of existing Security in old networks
Gap analysis: Examines the gap between old network security and FN performance expectations
Design Objectives: Specify objectives and principles for FN Security design
Technical Challenges: a list of major technical challenges to overcome
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ISO/IEC 29181-6: Media Transport
29181-6, FNPSR - Part 6: Media Transport Scope
describes the problem statement and requirements for future network in the perspective of Media Transport
detailed description on the media transport requirements in the Future Network
identification and definition of services, basic and media services, which will fit the requirements for communications over heterogeneous environments and users, for any kind of media content
functional architecture for media transport in the FN
requirements and functionalities of Media Aware Network Elements, which are intended to be nodes in the network to provide seamless media experiences to users;
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ISO/IEC 29181-7: Service Composition
29181-7, FNPSR - Part 7: Service Composition Scope
describes the problem statement, requirements and a service-oriented functional architecture for the FN from the perspective of service composition;
Analyze and classify problems of the current solutions on the service composition (SC)
Study various on-going standardization and research activities related to SC
Identify requirements on the SC for the FN
Describe some technical aspects of the SC for the FN
Describe use cases to support different features of the SC,
Propose a Service-oriented functional architecture including functional blocks and basic SC mechanisms for the FN
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Current Status of ISO/IEC TR 29181-series
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Std. No. Title Status
29181-1 FNPSR Part 1: Overall aspects TR
29181-2 FNPSR Part 2: Naming and Addressing TR(‘14.05)
29181-3 FNPSR Part 3: Switching and Routing TR
29181-4 FNPSR Part 4: Mobility TR
29181-5 FNPSR Part 5: Security TR(‘14.05)
29181-6 FNPSR Part 6: Media Transport TR
29181-7 FNPSR Part 7: Service Composition TR
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Recent Achievement on 29181-series
Publications (2013.06)
ISO/IEC 29181-3, Part 3: Switching and routing
ISO/IEC 29181-4, Part 4: Mobility
ISO/IEC 29181-6, Part 6: Media Transport
ISO/IEC 29181-7, Part 7: Service Composition
Progression of DTR Ballot (2013.11)
PDTR 29181-2, Part 2: Naming and Addressing
PDTR 29181-5, Part 5: Security
DTR ballots were started after WG7 October 2013 meeting
DTR ballots were closed in 6 March 2014
Upon successful completion of DTR ballot comments, it is decided to be published in May 2014
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New Issues on FN Standardization in SC6
Established a New PWIs (Preliminary Work Items)
PWI-FNQoS: Architecture and Intelligent Proxy Model for promoting the Quality of Service in Future Network
Proposed by China NB
Agreed at the JTC 1/SC 6 meeting in June 2013
Update PWI on QoS in Future Network
First draft Study Report was discussed at the WG7 Interim meeting (October 2013)
First official document was developed in February 2014
Study Report of PWI-FNQoS, Architecture and Intelligent Proxy Model for promoting the QoS in FN
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New Issues on FN Standardization in SC6
Extension of the ISO/IEC TR 29181-series
it was decided to develop additional parts of ISO/IEC 29181 by the WG7 meeting (2014.02, Ottawa)
To accommodate new issues such as QoS and IoT in Future Network environments
Subdivision of 29181 Project
New 29181-8, FN Problem statement and requirements - Part 8: QoS (Quality of Service)
First draft WD text was proposed and discussed in WG7 meeting in May 2014
New 29181-9, FN Problem statement and requirements - Part 9: NoE (Networking of Everything)
Definition and Scope of term ‘NoE’ will be discussed in the future meetings
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New Issues on FN Standardization in SC6
PWI on Future Network Terminology
Draft proposal was discussed in SC 6/WG 7 meeting (2013.10)
First WD text is drafting and it will be submitted to ITU-T SG13 in July 2014
New PWI on Naming & Addressing in Future Network
New PWI on FN Naming & Addressing was agreed in February 2014 (China & Korea)
FNNAS-Arch: Architecture of Future Network Naming and Addressing
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Future Network Standardization
in ITU-T SG 13
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History of FN Standardization in ITU-T
SG 13 Meeting in January 2009 (스위스 제네바)
Working Party 5: Future Networks
Q.21/13: Future networks
“Focus Group on FN” 신설 추진 결정
Non-ITU-T 멤버 참여 환경 마련
Objectives of FG-FNs
Gather new ideas relevant to Future Networks and Identify potential study areas on Future Networks
Describe visions of the Future Networks
Identify a timeframe of Future Networks
Identify potential impacts on standards development
Suggest future ITU-T study items and related actions
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ITU-T Q.21/13 (2009~2012)
ITU-T Q.21/13 – Future Networks Study Items
Problem statements on current IP-based network architecture
Design goals and general requirements for the FN
Gap analysis between existing standards and proposals for design goals and requirements for the FN
Study of Meta architectures (Network virtualization, Cross-layer communications) and Architectural Framework for the FN
Study on how to incorporate new communication and service technologies into FNs, such as wireless edge network
Identify functions and capabilities necessary to support new services for the Future Network
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Focus Group on Future Networks
The objectives are to gather new ideas, identify potential study areas, describe visions with a targeted timeframe, and suggest future actions
In 2009 and 2010, FG held eight meetings collocated with FN-related events June 2009; FG-FN #1 (Lulea, Sweden)
Nov. 2009; FG-FN #2 (Salt Lake, USA)
Jan. 2010; FG-FN #3 (Geneva, Switzerland)
Mar. 2010; FG-FN #4 (Tokyo, Japan)
June 2010; FG-FN #5 (Geneva, Switzerland)
Sep. 2010; FG-FN #6 (Geneva, Switzerland)
Oct. 2010; FG-FN #7 (Busan, Korea)
Nov. 2010; FG-FN #8 (Ljubljana, Slovenia)
All FG-FN Deliverables had been transferred to ITU-T Q.21/13 (January 2011)
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Focus group on Future Networks
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Deliverable Summary
Future Networks: Objectives and design goals
Provide definition, objectives, design goals, and timeframe for FNs and technologies for achieving the design goals
Terminology in Future Networks
Provides collection of terminology defined in other FG deliverables
Framework of Network Virtualization
Provides definition, attributes, overview, applicability, problem space, implementation example and security of network virtualization
Identifiers and Identification processes in Future Networks
Describes objects that require changes in identification scheme, analysis of existing scheme, requirements, and structure and relevant procedures for identification
Overview of Energy Saving of Networks
Provides descriptions and categorization of current energy saving technologies, necessary capabilities, impact analysis, overview of candidate technologies and develops high-level requirements
Project descriptions Describes future network related research activity information collected during FG activity in standard format
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Objectives and design goals of FNs (Y.3001)
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 new component network or an enhanced version of an existing one, or
A heterogeneous collection of new component networks or of new and existing component networks that is operated as a single network
Target Date: roughly 2015-2020
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Objectives and design goals of FNs (Y.3001)
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
4 objectives and
12 design goals
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FNs Standardization in ITU-T SG13 (2013~)
ITU-T SG 13: Future Networks
WP 3: SDN and Networks of Future
Q11: Evolution of user-centric networking, services, and interworking with networks of the future including Software-Defined Networking
Q12: Distributed service networking
Q13: Requirements, mechanisms and frameworks for packet data network evolution
Q14: Software Defined-Networking and Service-aware networking of future networks
Q15: Data-aware networking in future networks
Q16: Environmental and socio-economic sustainability in future networks and early realization of FN
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FNs Standardization in ITU-T SG13 (2013~)
Q14/13: Software Defined-Networking and Service-aware networking of future networks
Study items to be considered, but not limited to:
Requirements for the architecture to manage and to operate exploding and diversifying services and supporting functions in particular SDN and network virtualization
Analysis of gaps between SDN, service-aware networking and existing standards and/or technologies
Approaches, architectures and mechanisms for highly-scalable and distributed SDN and service-aware networking easy to control, operate and manage
Issues and solutions for migrating from current IP-based network to SDN and service-aware networking.
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FNs Standardization in ITU-T SG13 (2013~)
Q15/13: Data-aware networking in future networks
Study items to be considered, but not limited to:
Requirements for accessing enormous amount of data in a safe, easy, quick, and accurate manner
Analysis of gaps between data aware networking and existing standards and/or technologies
Architectures for data aware networking
Mechanisms for identifying information objects, including structure of identifiers and their mapping to underlying objects
Mechanisms for efficiently discovering, routing, caching, disseminating, and securing data in data aware networking
Migration from current IP-based network to data aware networking
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FNs Standardization in ITU-T SG13 (2013~)
Q16/13: Environmental and socio-economic sustainability in future networks and early realization of FN
Study items to be considered, but not limited to:
Requirements for reducing environmental impact of FNs themselves (Green of FNs), and reducing environmental impact in non-ICT sectors by using FNs (Green by FNs)
Analysis of gaps between environmental-aware FNs and existing standards and/or technologies
Mechanisms and their technical evaluation framework for environment-aware FNs
Identification of necessary study areas for socio-economic aware FNs such as the reduction of barriers for entering FNs ecosystem, the reduction of life-cycle costs to be easily deployable and more sustainable
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FNs Standardization in ITU-T SG13 (2013~)
Q16/13 (Cont.)
Analysis of gaps between socio-economic aware FNs and existing standards and/or technologies
Requirements for socio-economic aware FNs
Technical evaluation framework that establishes methodology to reflect socio-economic requirements into FNs, and
Framework, requirements, use cases, and functional architecture for early adoption and migration to Future Networks with the name "SUN"
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Major results on FNs in ITU-T SG13
Approved Recommendations
Y.3001: Future Networks: Objectives and design goals (2011.05)
Y.3011: Framework of network virtualization for Future Networks (2012.01)
Y.3021: Overview of Energy-saving of Networks (2012.01)
Y.3022: Measuring energy in networks (2013.08)
Y.3031: Identification framework in future networks(2012.05)
Y.3032: Configurations of node identifiers and their mapping with locators in future networks (2014.01)
Y.3033: Framework of data aware networking(DAN) for future networks (2014.01)
Y.3012: Requirements of network virtualization for Future Networks (2014.04)
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Major results on FNs in SG13
Approved Recommendations (Cont.) - SUN
Y.3041: Smart ubiquitous networks – Overview (2013.04)
Y.3042: Smart ubiquitous networks – Smart traffic control and resource management functions (2013.04)
Y.3043: Smart ubiquitous networks - Context awareness framework (2013.08)
Y.3044: Smart ubiquitous networks - Content awareness framework (2013.08)
Y.3045: Smart Ubiquitous Networks - Functional architecture of content delivery (2014.01)
Consented Recommendations - SDN
Y.3300(draft): Framework of software-defined networking (Consented in Feb. 2014)
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Major results on FNs in SG13
Draft Recommendations
Q14: Service aware networking
Y.Fnvirtarch: Functional architecture of Network Virtualization for Future Networks
Y.amnsa: Requirements and Architectural Framework for Auto Manageable Future Networks and Services
Y.FNsdn-fm: Requirements of formal specification and verification methods for software-defined networking
Y.SAME-Req: Requirements of Soft network Architecture for MobilE (SAME)
Y.Sup-SDN-usecases: Supplement for use-cases of telecom SDN
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Major results on FNs in SG13
Draft Recommendations (Cont.)
Q15: Data aware networking
Y.FN-hetronet: Mechanism for interworking of heterogeneous component networks in future networks
Q16: Environmental and socio-economic sustainability
Y.energyECN: Energy efficiency class of network equipment
Y.FNserv-uni: Service Universalization of Future Networks
Y.FNsocioeconomic: Economic Incentives of Future Networks
Y.FNterm: Terminology for Future Networks
Y.trusted-env: The basic principles of a trusted environment in ICT
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Smart Ubiquitous Networks (SUN)
What is SUN ?
Bridge between NGN and FNs
IP-based packet networks that can provide transport and delivery a wide range of existing and emerging services to people and things.
The services provided by the networks can cover aspects such as control, processing and storage.
The networks are smart in the sense that they are knowledgeable, context-aware, adaptable, autonomous, programmable and can effect services effectively and securely.
The networks are ubiquitous in the sense that they allow access anytime anywhere through varied access technologies, access devices including end user devices, and human-machine interfaces.
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SUN
Position of SUN
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Future capability
IP-based transport
NGN
Smart capability
Q S M
Managed capability
Services/Application
IP-based transport
Q S M
Managed capability
Services/Application+
SUN
Smart Ubiquitous
Smart capability
New/e-IP* transport
Q S M
Managed capability
Services/Application++
FN
Smart Ubiquitous
Q: QualityS: SecurityM: Mobility
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Collaboration for Future Network Standardization
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Collaboration bet. JTC 1/SC 6 & ITU-T SG 13
JTC 1/SC 6 has been communicating with ITU-T SG13
Exchanging LS, and Sharing Deliverables of each group
Correspondence Group was established
to identify common interest topics for collaboration
to develop common text or technically aligned text for ISO/IEC International Standard/ITU-T Recommendations
Mailing list: [email protected]
open to non-ITU-T members
Co-Convenors
Mr. Takashi Egawa (NEC, Japan) – Q.14/13 Rapporteur
Mr Shin-Gak Kang (ETRI, Korea) – SC 6/WG 7 Convenor
Not much real collaboration activities, recently
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Collaboration bet. JTC 1/SC 6 & Other ITU-T SGs
ITU-T SG 2
SG2 offered Collaboration on FN Naming & Addressing issues
Considering future possible collaboration work on FN Naming & Addressing issues
Liaison Statements were exchanged at the meetings in 2013
* Note: Naming & Addressing issues also related with relevant
activities on “Identification issues” of ITU-T SG13
ITU-T SG 17
SG117 offered Collaboration on FN Security issues
Considering future possible collaboration work on FN Security issues
Liaison Statements have been exchanged at the meetings in 2013~2014.
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Future Collaboration Work in FN
Develop a proposal on “FN Terminology”
develop a list of already defined terms in relevant FN specifications
SC 6/WG 7 will refine a FN Term document in SC 6/WG 7 Interim meeting (2014.05~2014.06)
It will be proposed to ITU-T SG13 meeting (2014.07)
Activate mailing list of CG between ITU-T SG13 and JTC 1/SC 6
mailing list of CG: [email protected]
Develop Common Text Document between ITU-T SG13 and JTC 1/SC 6
ITU-T SG13 meeting (2014.07, Geneva)
JTC 1/SC 6 meeting (2014.10, London)
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Future Meeting Plan
JTC 1/SC 6/WG 7 Meetings
2014.10.20~10.24: SC6 meeting (London, U.K)
ITU-T Meetings
7 ~ 18 July 2014: ITU-T SG 13 meeting (Geneva)
All FN related issues including Naming & Addressing
17 ~ 26 September: ITU-T SG 17 meeting (Geneva)
FN Security
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