In NGN - APNOMS

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Transcript In NGN - APNOMS 

NGN and its Standardization
September 27, 2006
NEC Corporation
ITU-T NGN security requirements (Y.2701) editor
Takashi Egawa
NGN: Next Generation Network
NGN is coming!
Needs
individuals
Seeds
Business
・Broadband/mobile gets popular
・network is now a part of life
Technologies
・Opt/IP/mobile technologies
・Expansion of biz-use net
・Emerges net-based business・Intl. standardization
needs meets seeds
NGN (Next Generation Networks)
(Evolution of architecture and revolutionary services)
Evolution of
telecommunications
FMC
Lifestyle changes
Telecommunicationbroadcast
convergence
Evolution of
enterprise networks
Decrease of $/Bit
Next generation Internet
WEB2.0、RSS
New business changes Network business leap
Starting of new evolution
2
Expectation and changes of NGN
For personal users
For enterprise
For network providers
Increase of usability
Infrastructure of biz
Flourish of services
Easy to use, with ease
Simple/cheap
Biz.expansion base
New source of profit
Adoption to new biz modelsCAPEX/OPEX decrease
Reliable/cheap
Business area expansion
Rebuilding of business
NGN: enabling technology
Revolution for layman/enterprise as well as
network providers
3
Agenda
1.
2.
3.
4.
Why NGN?
Standardization process
ITU-T NGN
NGN standardization in Japan
4
1. Why NGN?
Technological necessity of NGN
Does the Internet continue to evolve?
The Internet created various applications thanks to the freedom of end-users.
Does it apply to IPTV, Web 2.0, or FMC?
Best-effort QoS: New applications are hard to develop
Commercial quality real-time communications are difficult to provide
TV conference, streaming, …
Security/Reliability: Not carrier-grade
Children/elders can’t apply patches everyday
Mobility: the next bonanza will be in mobile gadgets
Current (ordinary) IP assumes fixed network
Discussions at Linux Symposium (2006)
6
Limitation from IP’s principle
Principle of IP
router
router
router
TE
TE
Routing table
Packet (header + payload)
• Routing table are updated in local manner; no network-wide, no
equipment-wide sync  scalable and cheap, but no QoS guarantee
becomes possible
• No state in routers; minimize memory access  expandable and
faster, but traffic engineering becomes unavailable
• Very limited functions in networks  interoperable ‘Internet Protocol’,
but no security, no QoS-awareness
The problems tightly linked with IP principle and merits
7
IP Design Philosophy: Main Goals
• Effective multiplexed utilization of existing networks
– Packet switching, not circuit switching
• Continued communication despite network failures
– Routers don’t store state about ongoing transfers
– End-hosts provide key communication services
• Support for multiple types of communication service
– Multiple transport protocols (e.g., TCP and UDP)
• Accommodation of variety of different networks
– Simple, best-effort packet delivery service
– Packets may be lost, corrupted, or delivered out of order
• Distributed management of network resources
– Multiple institutions managing the network
– Intradomain and interdomain routing protocols
Grosshauser (2002)
8
Characteristics of the Internet
• The Internet is
–
–
–
–
Decentralized (loose confederation of peers)
Self-configuring (no global registry of topology)
Stateless (limited information in the routers)
Connectionless (no fixed connection between
hosts)
• These attributes contribute
– To the success of the Internet
– To the rapid growth of the Internet
– …and the difficulty of controlling the Internet :<
Grosshauser (2002)
9
Operator Philosophy: Tension with IP
• Accountability of network resources
– But, routers don't maintain state about transfer
– But, measurement isn’t part of the infrastructure
• Reliability/predictability of services
– But, IP doesn’t provide performance guarantees
– But, equipment is not very reliable (no ‘five-9s’)
Downtime: IP networks: 471min/year, POTS: <5min/year
• Fine-grained control over the network
– But, routers don’t do fine-grain resource allocation
– But, network self-configures after failures
• End-to-end control over communication
– But, end hosts adapt to congestion
– But, traffic may traverse multiple domains
Grosshauser (2002)
10
But operators cannot rely on PSTN services any more
# of calls in Japan (from MIC’s white paper 2005)
(1e8)
(fiscal
year)
PDC
mobile
fixed
Total
In most developed countries,
2000 or around was the peak of telephone traffic
11
We must make Operator-friendly IP networks
IP traffic
>
telephone traffic
May 2006: 524Gbps
Fiscal 2004: 34.1Gbps
(Public Internet in Japan) (in Japan: converted 533k Erlang
using 64kbps/call)
> 20%/year
> -5%/year
IP must be the base of future networks
Timeline
• NTT: trial starts by the end of fiscal 2006
• KDDI: Fixed network becomes all-IP by fiscal 2007
• BT: by 2008
• Korea: long-distance is by 2007, local by 2010
12
NGN: best mix of packet and circuit
• "Service Stratum" for per-session control of packet transmission
• Data is transmitted with IP packet for interoperability
• All necessary functions are in the network (fat network approach)
– Operators can maintain every aspect of functions  increase reliability
– All the terminals can do is just to call network’s functions  increase
security
– Control interface is open  promotes development of applications
Video Services (TV, movie, etc)
Data Services (WWW, e-mail, etc)
Telephone Services
(Any/All Applications
e.g. voice , data , video)
NGN service control functions
Anything & Everything
Internet Protocol
(IP)
Everything
Scope
Of
"Internet"
"Service Stratum"
(Session control by using SIP, etc.)
NGN transport functions
(Any & All Network technologies)
"Transport Stratum"
Hourglass model of IP
(managed IP network)
ITU-T Y.2011 "General principles and general
reference model for Next Generation Networks"
13
2. Standardization process
De jure standards v. De facto standards
De jure standards
• Open and fair process
• Results are shared among
all participants (usu.
without charge)
• Reflects broader opinions
ITU, ISO, TTA, TTC, ..
In NGN
framework
De facto standards
• Operated by highly
motivated volunteers
• Faster standardization
• Currently very popular
IETF, TMF, WiMAX, ..
Individual components
and technologies
NGN framework includes regulations and policies
(e.g., how to standardize emergency services, how to design market regulations
considering network architecture)
 De jure standards becomes important
15
NGN related standard bodies
International
De Jure
TISPAN project
SDO
ITU-T
standardize NGN,
esp. VoIP. Release 1
issued in Dec. 2005.
ETSI
Regional
(EC)
De Jure
SDOs
Close collaboration
&
Partnership
3GPP
Projects
CCSA
(China)
Standardize IMS,
NGN’s central module.
Partnership Project
among regional SDOs.
aaa
De Facto
SDOs
IETF
TTA
(Korea)
OMA
ARIB
(Japan)
TTC
(Japan)
Standardize NGN in NGNGSI, esp. SG13. Issued first
recommendations in July
2006.
ISACC
(Canada)
ATIS
(USA)
APT
(Asia Pacific)
TIA
(USA)
3GPP2
ACIF
(Aust)
WiMAX
TMF
DSL
Forum
MSF
….
SDO: Standard Development Organization
16
Timeline of NGN standardization
We are here
2004
2005
Study Period 2000-2004
2006
2007
Study Period 2005-2008
Focus Group IPTV
ITU-T
NGN-JCA
Focus Group NGN
NGN-GSI (Global Standards Initiative)
Collaboration among SG13,11,19 and other SGs
(International NGN standards)
Release 1 (architecture, VoIP)
Integrated in 2003
ETSI
TIPHO
N
(TISPAN)
SPAN
Release 2
(IPTV, FMC, etc.)
IMS based NGN architecture
Release 1 (architecture, VoIP)
Release 2
(IPTV, FMC, etc.)
(European NGN standards)
3GPP
IMS Release6
(3G mobile specs)
Collaboration on IMS
IMS Release7
17
Organization of ITU
ITU
ITU-T: Telecommunications
TSB (bureau)
TSAG(steering)
SG2 (numbering, etc.)
SG3 (charging)
SG4 (management)
Q1 (project mngt)
Q2 (requirements & scenarios)
Q3 (func. architecture)
Q4 (QoS architecture)
Q5 (net. management)
Q6 (mobility & FMC)
SG5 (electromagnetic protection)
Q7 (net. & service integration)
SG6 (plant)
Q8 (service
ITU-R & deployment)
SG9 (cable net)
Q9 (IPv6)
SG11 (signaling)
Q10 (satellite)
SG12 (QoS)
Q11 (terminology)
SG13 (NGN)
Q12 (frame relay)
NGN security requirements
SG15 (transport)
Q13 (public data net.)
NGN authentication
SG16 (multimedia)
Q14 (multi service net.)
AAA
SG17 (security & language)
Q15 (security)
Certificate management
SG19 (mobility)
Q16 (commercial off-the shelf components )
Title: Chair, vice chair
Rapporteur, associate rapporteur
editor
ITU-R: Radio
ITU-D: developing country support
18
ITU-T NGN standardization structure
NGN-GSI (Global Standards Initiative)
SG11 Protocol and
SG13 (NGN)
signaling (stage 3)
1. Planning and promotion of overall NGN
standardization process (e.g., roadmap)
SG19 Mobility
2. Development of core technology’s
Requirements
requirements that are used by other SGs to
SG 2 Numbering
develop their recommendations (Stage 1)
3. Development of network architectures
SG16 multimedia
(Stage 2)
SG12 QoS
FG-IPTV
OCAF-FG
FG(Focus Group)
Special task force
for particular areas
SG4
Management
SG17 Security and
Languages
19
ITU-T NGN-GSI structure
Working party chairman coordinates Question activities in 10 topics
Topics
Cooridnator
1
WP1/13
2
WP2/13
3
WP3/13
4
WP4/13
5
WP2/11
6
WP2/4
7
WP2/13
8
WP3/13
9
WP3/13
10
WP3/13
SG13
Project management
and scope
Architecture
Service Requirements,
Capabilities and scenarios
QoS and network
capabilities
Q1(WP1)
Q11(WP1)
Q3(WP2)
Q6(WP2)
Q9(WP2)
Q10(WP2)
Q2(WP3)
Q8(WP3)
Q4(WP4)
Control and protocol
SG11
Q1(WP1)
SG19
Q1
Q2
Q5
Q5(WP2)
Other
SGs
Q29/16
SG12
Q3(WP2)
Management
Q5(WP4)
Security
Q15(WP2)
NNAR (including ID)
Q2(WP3)
Charging
Q2(WP3)
Interwork and evolution
Q7(WP3)
Q2
SG4
NGNMFG
WP2/17
Q3
Q1/2
SG3
NNAR: Numbering,
Naming, Addressing
and Routing
20
ITU-T NGN Management standardization structure
NGN-GSI (Global Standards Initiative)
SG13 NGN
SG4 (Telecommunication Management)
Requirements 1. Telecommunication service/networks/equipment
management for NGN and other networks
2. Application and evolution of TMN framework
3. Test, measurement and other mngt-related issues
Question 8 of SG4
Management framework of NGN (e.g., M.3060)
NGN Management Focus Group
(Chair: Dave Sidor (Nortel), Vice Chair: Leen Mak (Lucent))
1. Specifies NGN (esp. NGN Release 1) management
related to FCAPS interfaces
2. Currently focusing on development and maintenance of
NGN Management Specification Roadmap for Release 1
(maps existing/developing standards, analyses gaps, etc.)
The roadmap of NGN Management FG is available at
http://www.itu.int/ITU-T/studygroups/com04/roadmap.html
21
3. Important ITU-T NGN standards
ITU-T NGN Release1 Scope (Y.2000 supplement 1)
Defines what is included in NGN Release 1
Service Types
Service description
Multimedia services
• Real-time Conversational Voice services
• Messaging services
• Push to talk over NGN (PoN)
• Point-to-Point interactive multimedia
services
• Collaborative interactive communication
services
• Content delivery services
• Push-based services
PSTN/ISDN
Emulation services
• Provides PSTN/ISDN equivalent services and interfaces on IP network
infrastructure
PSTN/ISDN
simulation services
• Provides PSTN/ISDN like services by using session control of IP networks
Data
communication
services
• Virtual Private Network (VPN) services
• Existing data services
• Data retrieval services
• Online services
• Sensor Network services
• Remote control/tele-action services
Public Interest
Aspects
• Emergency Communications (including
support of Early Warning):
• Support for users with disabilities
• Lawful Interception
• Service unbundling
• Number portability
• Network or Service provider selection
• Prevention of unsolicited bulk
telecommunications.
• Malicious communication
identification
• User identifier presentation & privacy
• Broadcast Services
• Hosted and transit services for
enterprises
• Information services
• Location-based services
• Presence and general notification
services
• 3GPP Release 6 and 3GPP2
Release A OSA-based services
23
ITU-T NGN Release1 Requirements
(Y.2201) (1/2)
Defines requirements on these aspects (1/2)
•Transport connectivity
•Communication modes
•Media resource management
•Codecs
•Access network and network
attachment
•User networks
•Interconnection, Interoperability
and Interworking
–Interconnection
–Interoperability
–Interworking with non-NGN
networks
•Routing
•Quality of Service
–General QoS requirements
–Network QoS classes
–Service/Application Priority
–QoS control
–QoS Signalling
–Performance measurement
and management
–Processing and traffic overload
management
•Accounting and charging
•Numbering, naming and
addressing
–General requirements for
Numbering, Naming and
Addressing
–Numbering
–Numbering, Naming and
Addressing schemes
–Name/Address resolution
–Numbering, naming and
addressing interworking
•Identification, authentication and
authorization
–General requirements
–Requirements for identification
–Requirements for
authentication
–Requirements for authorization
•Security
•Mobility management
•OAM
–General OAM requirements
•Survivability
–Protection switching
requirements
–Rerouting requirements
–Service resiliency
requirements
•Management
•Open service environment
–Service coordination
–Interworking with service
creation environments
–Service discovery
–Service registration
–Development support
•Profile management
–User profile
–Device profile
•Policy management
•Service enablers
–Group management
–Personal information
management
–Message handling
–Multicast support
–Presence
– Location management
– Push
–Device management
–Session handling
–Web-based application support
–Content processing
–Data synchronization
24
ITU-T NGN Release1 Requirements
(Y.2201) (2/2)
Defines requirements on these aspects (2/2)
•PSTN/ISDN emulation and
simulation
–PSTN/ISDN emulation
requirements
–PSTN/ISDN simulation
requirements
•Public interest aspects
–Lawful interception
–Malicious communication
identification
–Unsolicited bulk
telecommunications
–Emergency
telecommunications
–User identity presentation and
privacy
–Network or Service Provider
selection
–Users with disabilities
–Number portability
–Service unbundling
•Critical infrastructure protection
•Non disclosure of information
across NNI interfaces
•Inter-provider exchange of userrelated information
Requirements examples; on management 12
requirements are defined. Below are the first 3
NGN management capabilities shall support the aims
of the NGN by:
1. Providing the ability to manage, through their
complete life cycle, NGN components, both
physical and logical. This includes resources in the
transport stratum and the service stratum, access
transport functions, interconnect components and
user networks and terminals;
2. Providing the ability to manage NGN service
components independently from the underlying
NGN transport components and enabling
organizations offering NGN services (potentially
from different service providers) to build distinctive
service offerings to customers;
3. Providing the management capabilities which enable
organizations offering NGN services to offer users
the ability to personalize user services and to
create new services from NGN capabilities
(potentially from different service providers);
(9 more requirements cont.)
25
NGN functional architecture (Y.2012)
•
•
•
•
Transport stratum for managed IP packet transfer, and Service stratum for session
control and for additional services, are clearly separated.
(Does not align with OSI model; e.g., transport stratum includes session)
Transport stratum: composed of Transport Function for IP packet transmission, NACF
for user attachment (authentication, IP address assignment, etc.), and RACF for QoS
Service stratum:
composed of SCF for IMS
and PSTN/ISDN emulation,
and support functions for
developing applications
Terminal: for 3G terminals:
IPv6, for traditional fixednetwork terminals: IPv4
3rd Party applications for
Open Mobile Alliance
(OMA) works on
Application Network
Interface (ANI)
Applications
ANI
Management Functions
•
Application Support Functions & Service Support Functions
Service
ServiceUser
User
Profiles
Service Control
Functions (SCF)
Service stratum
EndUser
Functions
Network
Attachment
Network
Attachment
Control
Functions
(NACF)
Control
Functions
Transport
TransportUser
User
Profiles
Resource and
Admission
Control Functions
(RACF)
Transport Control Functions
Other
Networks
Transport Functions
UNI
NNI
Transport stratum
NGN architecture overview
Control
Media
Management
From ITU-T Y.2012 (06/07)
26
Detailed functional architecture (Y.2012)
Applications
Management functions
(may include own Authentication, Authorization and Accounting)
Service
control
S-5: S. User
Profile FE
S-15: General
S-7: Interconnection
Border Gateway
Control FE
Other NGN
Services Control FE
S-2: Proxy Call Session
Control FE
S-1: Serving
Call Session Control FE
S-8: Access GW
Control FE
S-13: Media Resource
Control FE
NACF
T-12: T. User
Profile FE
T-11:
T. Authentication
&Authorization
FE
Legacy
Terminal
T-13: T. Location
management FE
T-4: Access
Relay FE
Customer
Network
T-2: Access
Node FE
T-1: Access
Media
Gateway
FE
S-10: Breakout
Gateway Control
FE
S-9: Media
GW
Control FE
RACF
RACF
T-16: Policy Decision FE
IP
Multimedia
Networks
T-16: Policy Decision FE
T-17: Transport
Resource Control FE
T-17: Transport
Resource Control FE
T-10:
Network Access
Configuration FE
Core transport
T-8:
Media
Resource
Processing
FE
T-14: Access Management FE
RGW
Legacy
Terminal
S-12: Network
Signaling
Interworking FE
S-3: Interrogating Call
Session Control FE
S-4: Subscription
Locator FE
T-15: Home GateWay
Configuration FE
NGN
Terminal
S-6: S.
Authentication &
Authorization FE
S-14: Media
Resource Broker FE
Application
Application Support Functions & Service Support Functions
S-11: User Signaling
Interworking FE
NGN
End-User UNI
Function
ANI
*
Access transport
T-3: Edge
Node FE
T-5:
Access
Border
Gateway
FE
Access Packet Transport Functions
Core Packet Transport Functions
T-9:
Signalling
Gateway
FE
T-6:
Interconnection
Border
Gateway FE
T-7:
Trunking
Media
Gateway
FE
PSTN/ISDN
Scope of NGN
27
IMS (IP Multimedia Subsystem) overview
• Provides various SIP-based services
– Provides session control, charging, security functions
• Increase end-user’s experience by unifying registration,
authentication and charging
– Provides interfaces to control transport functions
• QoS, media gateway, alignment of charging on transport
functions and service functions
– Provides interfaces not only to operators, but 3rd party
application vendors
• Clearly defined SIP from operator’s point of view
– IETF SIP is not enough for network operators
e.g., IETF SIP does not define the start and the end of
charging
• ITU-T NGN refers 3GPP Release 7 IMS
28
IMS for NGN (Y.2021)
• CSCF (Call Session Control Function): SIP server, the core of this
architecture. P-CSCF (Proxy CSCF) is a sip server that communicate
with user terminals
• Various functions are defined as the gateway to other networks
Rf/Ro
Charging
Functions
Ut
AS-FE
Sh
Dh
SUP-FE
SAA-FE
ISC/Ma
Network
Attachement
Control
Function
SL-FE
Dx
Cx
NSIW-FE
Ib
Mw
Ic
Mi
BGCF
Mr
e2
IBC-FE
Mx
I/S-CSCF
« Core IMS»
Mx
Mk
P-CSCF
Mx
Rs
Mg
MRFC
MGCF
Ie
Mp
Mn
PSTN/ISDN
Rs
SG-FE
IP Networks
Mw
Mj
Gm
Iw
Rf/Ro
Resource and Admission Control Function
MRP-FE
TMG-FE
UE
IP Transport (Access and Core)
IBG-FE
29
Per-session Resource and Admission Control Functions (Y.2111)
•
•
End-user (terminal) requests SCF a session establishment
RACF manages the current network resources, and grant/reject the
request to achieve QoS guarantee
– Relative QoS (e.g., diffserv’s CoS) is acceptable
– Various message flow and protocols are defined, operators will choose
•
ETSI NGN Release 1 defines RACF for access network only
ITU-T defines core network RACF as well
AP
SIP
serverserver
…
DIAMETER, etc.
Access-RACF
Session establish
Request by SIP
Resource
PDF control
server
Access network
(e.g, metro ethernet)
Core-RACF
PDF
Resource
control
server
Core networks
(e.g., MPLS)
Other NGN networks
SCF
SCF
: Service Control
Functions (IMS and
PSTN/ISDN emulation
function on IMS)
RACF : Resource
Admission Control
Functions
30
Security Requirements (Y.2701)
Trust model
Trusted zone an NGN operator can trust
OpS
Signaling
BE
CPE
CPE-BE
(home GW)
SIP server
Media
BE
Various
NEs
The Internet
BE
NGN
BE
Other
networks
• Border element on the edge protects inside NEs
– Security requirements are defined for outside NEs, inside NEs and Border
Elements
• Does not define requirements on SIM
31
Session Border Controller (Y.2012 supplement 1)
• Defines S/BC functions for
media path and signaling path
• S/BC can be placed between
any networks
• This document is a supplement
--- not mandatory
Application
Provider
Network
CCSP MP
Service
Provider C
Logical
Interfaces
Logical
Interfaces
CCSP MP
CCSP MP
CCSP MP
Logical
Interfaces
CCSP
Service
Provider
A
MP
CCSP
CCSP
Service
Provider
B
MP
MP
CCSP MP
Enterprise
CCSP Network
Or
Access CCSP
Network
Or
MP
Transit
MP Network
CCSP MP
CCSP MP
Logical
Interfaces
CCSP MP
CCSP MP
CCSP MP
Enterprise
Or Home Network
CCSP: Call Control Signalling Path
MP: Media Path
Application
Provider Network
CCSP
MP
Enterprise
Or Home Network
Media path func.
Signaling path func.
•VPN bridging or mediation
•Opening and closing of a
pinhole (Firewall)
•Policing and marking
•Detection of inactivity
•NAT and NAPT
•Assisting remote
NAT/NAPT traversal
•Resource and admission
control
•IP payload processing
•Performance measurement
•Denial of service (DoS)
detection and protection
•Media encryption and
decryption
•Support for Emergency
Telecommunications
Service/Telecommunication
for Disaster Relief
(ETS/TDR)
•Support for emergency
calls
•Traffic control for
signalling messages
•Authentication,
Authorization, and
Accounting (AAA)
•Signalling protocol
translation
•Signalling protocol
interworking
•Session-based routing
•DSP service control
•End-user information
hiding
•Topology and
infrastructure hiding
•DoS protection
•Signalling encryption and
decryption
•Support for ETS/TDR
•Support for emergency
calls
32
New services/capabilities discussed in ITU-T (1/2)
Service stratum related capabilities
• Charging(K)
• ID based applications (RFID support, etc.) (K)
• Open service environment capabilities (K)
• Web service based Convergence service (K)
• Convergence terminals (K)
(proposed country,
K: Korea
C: China)
Applications
ANI
Ma
na
ge
me
nt
NGN
Service Stratum
Enduser
func.
Transport stratum
Other
netw
orks
UNI
Application
• IPTV(-)
• Multi-play by DSLAM (Poland)
• UPT (C)
• IMS based real-time conversation voice
service (C)
• Telematics (for ITS support) (K)
Transport stratum related capabilities
• FMC(C)
• VPN(K)
• Multicast with MPLS-based QoS support
(K)
• Contents Conversion Service Scenario (K)
• MPLS-based mobility and QoS (K)
33
New services/capabilities discussed in ITU-T (2/2)
• Service stratum related capabilities
– RFID; Describes RFID applications. Requirements for NGN will be
added in the future
– Open Service Environment Capabilities: Describes integrated ANI
(application network interface) including 3GPP OSA. Requirements
for NGN will be added in the future
• Transport stratum related capabilities
– FMC; documents on requirements, IMS-based architecture, Service
scenario for NGN with PSTN-based access networks are under
discussion
– Multicast with MPLS-based QoS support: Requirements,
architecture overview, information flow are under discussion
• Application related services
– IPTV discussion is moved to Focus Group on IPTV (~2006/07)
• Most new services are proposed by Korea and China in ITU-T
• # of experts are ITU-T is not enough, and most
recommendations on these issues are not very mature
34
4. NGN standardization in Japan
Structure of NGN Study/Standardization in Japan
TTC (Telecommunication Technology Committee)
• Develops NGN-related technical standards as a committee to
establish telecommunication related standards and protocols
• Created NGN architecture WG and NGN upstream SWG in
April 2005
• Collaborates and contributes to ITU-T and various foreign fora
such as 3GPP and 3GPP2
Next Generation IP Network Promotion Forum
• Combines strength of operators, vendors, academies, domestic
fora and application vendors to promote all-IP networks
• Established in December 2005, 211 members (March 2006)
• Promotes interoperability tests, demonstration experiment,
information exchange as well as standardization based on R&D
• Technological focus: QoS and function, dependability (security
and safety), interoperability and interconnectivity
MIC
(Ministry of Internal
Affairs and
Communications)
36
MIC-TTC coordination
1. Ministry of Internal Affairs
and Communications
(Information and communication
Technology Sub-counsil)
2. TTC
Technical Assembly
Strategy Committee
Advisory Groups (AGs)
Technical Study AG
ITU-T Sectional Meeting
Global Collaboration AG
NGN AG
Net. Management WG
Network Management
Committee (SG4)
NGN Architecture WG
NGN committee
(SG11, SG13)
Leader: Naotaka Morita (NTT)
Leader: Prof. Koichi Asatani
NGN WG
Leader: Naotaka Morita (NTT)
Sub-leader: Hideaki Yamada (KDDI)
Sub-leader: Takashi Egawa (NEC)
Integral
operation
NGN upstream
Sub-WG (SG13)
Signaling upstream
Sub-WG (SG11)
CJK NGN-WG
/w CCSA, TTA
Signaling WG
Leader: Takuya Sawada (KDDI)
37
Structure of Next Generation IP Network Promotion Forum
Forum
Chair: Tadao Saito (Prof. Emeritus, U-Tokyo)
Vice-Chair: Ryuji Yamada (NTT)、Yasuhiko Ito (KDDI)
Technology
Group
Chairman: Shigeki Goto (Waseda-U)
R&D/Standardization
Group
Chair: Koichi Asatani (U-Kogakuin)
Planning & Promotion
Group
Chair: Yuichi Matsushima (NiCT)
Bureau
(NiCT)
• Interconnectivity test planning, promotion and coordination,
including the coordination with relevant fora
• Studies regulatory issues of IP telephony, in particular QoS and
•
functionality, safety and security,
interconnectivity and
interoperability as well as regulatory issues of other advanced
services. Practices proving test, if necessary.
• Promotes R&D and the standardization of its results by
establishing basic strategies and promotion methods, and by
practicing proving tests. R&D focuses not only on NGN R1&R2,
but beyond R2.
• Promotes deployment and information exchange of next
generation IP networks. Publicize appropriate information through
publications, symposiums and market promotions. Surveys
domestic and international R&D trends.
38
Backup slides
ITU-T document list
ITU-T Rec . No.
Tit le
Lead SG Ex pec t ed Approv al
Approv al
Proc es s
--
Approved
Supplement 1 to Y.2000-series NGN release 1 scope
13
Y.2201
NGN release 1 requirements
13
Apr. 2007
TAP
Y.2012
Functional requirements and architecture of the NGN
13
Oct. 2006
AAP
Supplement 1 to Y.2012
Session/border control (S/BC) functions
13
Y.2021
IMS for Next Generation Networks
13
Oct. 2006
AAP
Y.2031
PSTN/ISDN emulation architecture
13
Oct. 2006
AAP
Y.2091
Terms and definitions for Next Generation Networks
13
Oct. 2006
AAP
Y.2111
Resource and admission control functions in Next
13
Oct. 2006
AAP
13
Oct. 2006
AAP
--
Approved
Generation Networks
Y.2171
Admission control priority levels in Next Generation
Networks
Y.2261
PSTN/ISDN evolution to NGN
13
Oct. 2006
AAP
Y.2271
Call server based PSTN/ISDN emulation
13
Oct. 2006
AAP
Y.2701
Security requirements for NGN release 1
13
Apr. 2007
TAP
Q.1706
Mobility management requirements for NGN
19
Oct. 2006
AAP
ITU-T recommendation
approval process
Experts agree that the
document is mature
TAP: 6~9 month
AAP: 2 month
for policy and regulation related recommendations
for technical recommendations
Approved as ITU-T recommendation
by Governments' voting
41
ETSI TISPAN document list (1/5)
Deliverable Reference/Short Title
Status
Q.x/SG
Services aspects and general requirements (stage 1)
TS 181 010 V1.1.1 (2005-06) Service requirements for end-to-end
session control in multimedia networks (Release 1)
TS 102 424 V1.1.1 (2005-09) Requirements of the NGN network to
support Emergency Communication from Citizen to Authority
TS 181 001 (WI DTS-01001) NGN Videotelephony, Stage 1 Service
description
TS 181 005 (WI DTS-01025) NGN Release 1 Service and Capabilities
requirements
TR 180 000 (WI DTR-00004) NGN Terminology
TS 181 002 (WI DTS-01002) Requirements for Multimedia Telephony
with PSTN/ISDN Simulation Services
TR 181 004 (WI DTR-01024) Generic Capabilities and their Use to
Develop Services Requirements Analysis
DTR-01023 NGN Services capabilities, requirements and strategic
direction for NGN services
DTS-01030 FMMS IP-based Short Message Service (SMS); Service
description
DTS-01036 FMMS IP-based Multimedia Messaging Service (MMS);
Service description
Pub
Q.2/13
Pub
Q.2/13
App
Q.2/13
App
Q.2/13
AbC
AbC
Q.11/13
Q.2/13
AbC
Q.2/13, SG19
Plen
Q.2/13, SG19
Plen
Q.2/13
Plen
Q.2/13
- Status
Pub: Published (before December 2005)
App: Approved at TISPAN#9 (December 2005)
AbC: Approval by correspondence after TISPAN#9 (deadline 20 January 2006)
Plen: Approval expected at TISPAN#10 (February 2006)
- Deliverable/Type of Document
TR: ETSI Technical Report (enters the Publication process immediately after TISPAN approval)
TS: ETSI Technical Specification (goes to Publication process immediately after TISPAN approval)
ES: ETSI Standard (has to pass the Membership Approval Procedure before Publication)
- Q.x/SG: identifies the Question in the SG
Note: the "Short title" given is based on the Work Item title and is not the exact title of the ETSI TISPAN approved
document.
42
ETSI TISPAN document list (2/5)
Functional architecture and detailed requirements (stage 2)
ES 282 001 v1.1.1 (2005-08) NGN Functional Architecture Release 1
Pub
ES 282 002 (WI DES-02019) Functional architecture for PSTN/ISDN
emulation
ES 282 004 (WI DES-02021) Network Attachment Subsystem (NASS)
App
TS 182 008 (WI DTS-02031) Presence Service; Architecture and
Functional Description : 3GPP TS 23.141, modified and OMA-ADPresence_SIMPLE- V1_0, modified
TS 182 011 (WI DTS-02033) XML document management:
Endorsement of OMA-AD-XDM-V1_0
ES 282 003 (WI DES-02020) Resource Admission Control subsystem
(RACS) Functional Architecture
TR 182 013 (WI DTR-02024) Functional Architecture and information
flows for bearer control
TR 182 005 (WI DTR-02027) Organization of NGN User data
App
Q.3/13, Q.1/11,
SG19
Q.3/13, Q.7/13,
Q.1/11
Q.3/13, Q.1/11,
Q.7/11
Q.2/11
App
Q.2/11
AbC
Q.4/13, Q.1/11,
Q.5/11
Q.4/13, Q.4/11
TS 182 006 (WI DTS-02028) NGN-IMS Stage 2 definition
(endorsement of TS.23.228)
ES 282 007 (WI DES-02029) IP Multimedia Subsystem (IMS)
Functional Architecture
TS 182 012 (WI DTS-02030) PSTN/ISDN Emulation Subsystem; IMSbased Functional Architecture
ES 282 010 (WI DES-02032) Charging (Endorsement of 3GPP TS
32.240 v6.3.0, TS 32.260 v6.3.0, 3GPP TS 32.297 v6.1.0, TS 32.298
v6.1.0 and TS 32.299 v6.4.0)
AbC
App
AbC
AbC
AbC
AbC
AbC
Q.3/13, Q.1/11,
SG19
Q.3/11
Q.3/13,
Q.3/11,
Q.3/13,
Q.3/11
Q.3/11,
Q.1/11,
SG 19
Q.1/11,
Q.1/3
43
ETSI TISPAN document list (3/5)
Protocols (stage 3)
ES 283 002 V1.1.1 (2005-08) PSTN/ISDN Emulation Subsystem
(PES); NGN Release 1 H.248 Profile for controlling Access and
Residential Gateways
TS 183 010 V1.1.1 (2005-08) PSTN/ISDN simulation services
Communication Hold (HOLD)
TS 183 021 V1.1.1 (2005-09) Interworking between the IMS IP
Multimedia Networks
TS 183 022 V1.1.1 (2005-06) MGC Information Package
TS 183 023 V1.1.1 (2005-09) NGN Release 1; PSTN/ISDN simulation
services; Extensible Markup Language (XML) Configuration Access
Protocol (XCAP) over the Ut interface for Manipulating NGN
PSTN/ISDN Simulation Services
TS 183 007 (WI DTS-03025) PSTN/ISDN simulation services; OIP/OIR
TS 183 008 (WI DTS-03026) PSTN/ISDN simulation services; TIP/TIR
TS 183 019 (WI DTS-03041) Interface protocol definitions for network
access through xDSL and WLAN access networks
TR 183 014 (WI DTR-03033) Verification of ETSI, IETF and ITU
Specifications to prove the availability of Carrier class services for
PSTN/ISDN Emulation
TS 183 006 (WI DTS-03024) PSTN/ISDN simulation services;
Message Waiting Indication (MWI)
ES 283 039-3 (WI DES-03034) NGN Congestion & Overload Control
Part 3 - H.248 RGW
TS 183 020 (WI DTS-03042) Roaming interface protocol definitions for
TISPAN NGN network access
TS 183 003 (WI DTS-03022) PSTN/ISDN simulation services; Call
Diversion (CDiv)
TS 183 005 (WI DTS-03023) PSTN/ISDN simulation services;
Conference (CONF)
TS 183 011 (WI DTS-03029) PSTN/ISDN simulation services;
Anonymous Call Rejection and Communication Barring (ACR-CB)
TS 183 016 (WI DTS-03036) PSTN/ISDN simulation services;
Malicious Call Identification (MCID)
Pub
Q.3/11
Pub
Q.3/11
Pub
Q.3/11
Pub
Pub
Q.3/11
Q.2/11
App
App
App
Q.3/11
Q.3/11
Q.7/11
App
Q.1/11
App
Q.3/11
App
Q.3/11
App
Q.7/11, SG 19
AbC
Q.3/11
AbC
Q.3/11
AbC
Q.3/11
AbC
Q.3/11
44
ETSI TISPAN document list (4/5)
TS 183 017 (WI DTS-03038) Gq' interface based on Diameter Protocol
ES 183 018 (WI DES-03039) Ia interface based on H.248
ES 283 012 (WI DES-03040) Trunking Gateway Control Protocol
(TGCP) stage 2
ES 283 024 (WI DES-03047) Trunking Gateway (TGW) Stage 3
ES 283 026 (WI DES-03052) Rq interface based on Diameter Protocol
TS 183 028 (WI DTS-03054) Common Basic Communication
procedures
TS 183 029 (WI DTS-03055) PSTN/ISDN simulation services; Explicit
Communication Transfer (ECT)
ES 283 030 (WI DES-03057) Protocol support for Presence service
ES 283 031 (WI DES-03058) H.248 Profile for controlling Media
Resource Function Processors
TS 183 033 (WI DTS-03060) Endorsement of TS 29.228 & 29.229 (Cx
and Dx interfaces based on the Diameter protocol)
ES 283 034 (WI DES-03063) e4 interface based on the Diameter
Protocol
ES 283 035 (WI DES-03064) e2 interface based on the Diameter
Protocol
TS 183 038 (WI DTS-03067) XML Document Management
TS 183 023 (WI DTS-03068) XCAP security corrections/alignment
TS 183 010 (WI DTS-03069) NGN Hold corrections/alignment
DTR-03032 (will be TR 183 013) NGN & IMS (NGN dependencies &
endorsements)
DES-03019 (will be ES 283 003) IP Multimedia Call Control Protocol
based on Session Initiation Protocol (SIP) and Session Description
Protocol (SDP); 3GPP TS. 24.229 (Release 7) , modified;
DES-03053 (will be ES 283 027) Endorsement of the SIP-ISUP
Interworking between the IP Multimedia (IM) Core Network (CN)
subsystem and Circuit Switched (CS) networks Stage 3
DES-03044 (will be ES xxx xxx) IMS-based PSTN/ISDN Emulation
Stage 3 specification
DES-03059 (will be TR 183 032) Feasibility study on ISUP
encapsulation over IMS
DTS-03070 (will be TS 183 041) Messaging service using the IP
Multimedia (IM) Core Network (CN) subsystem; Stage 3
AbC
AbC
AbC
Q.5/11
Q.5/11
Q.5/11
AbC
AbC
AbC
Q.5/11
Q.5/11
Q.3/11
AbC
Q.3/11
AbC
AbC
Q.2/11
Q.5/11
AbC
Q.5/11, Q.7/11
AbC
Q.5/11, Q.7/11
AbC
Q.3/11, Q.7/11
AbC
AbC
AbC
Plen
Q.2/11
Q.2/11
Q.3/11
Q.3/11
Plen
Q.3/11
Plen
Q.3/11
Plen
Q.3/11
Plen
Q.3/11
Plen
Q.3/11
45
ETSI TISPAN document list (5/5)
Quality of Service
TS 185 001 V1.1.1 (2005-11) Next Generation Network (NGN);Quality
of Service (QoS) Framework and Requirements
TR 185 xxx (WI DTR-05006) Review of material available on QoS
requirements of Multimedia Services
Security
Pub
Q.4/13, Q.15/12
AbC
Q.4/13, Q.13/12
TS 187 001 (WI DTS-07014) NGN Release 1 Security Requirements
App
TR 187 002 (WI DTR-07016) Threat and Risk Analysis
AbC
TS 187 003 (WI DTS-07017) Security Architecture
AbC
Q.15/13, Q.4,
5/17
Q.15/13, Q.4,
5/17
Q.15/13, Q.4,
5/17
Addressing & Routing
TR 102 055 ENUM scenarios for user and infrastructure ENUM
TS 102 172 Minimum requirements for interoperability of ENUM
implementations
Management
Pub
Pub
SG 2
SG 2
TR 102 647 V1.1.1 (2004-10) NGN Management standards; Overview
and gap analysis
TR 102 449 (WI DTR-08009) Overview of Radio Frequency
Identification (RFID) Tag in the Telecommunications Industry
TR 102 450 (WI DTR-08009) Telecommunications Equipment Lifecycle
ETSI TS 188 001 V1.1.1 (2005-09) NGN management; OSS
Architecture Release 1
TS 188 001 V.1.2.1 (WI DTS-08014) NGN Management; OSS
Architecture, Release 1, revised
TS 188 003 V1.1.1 (2005-09) OSS requirements ; OSS definition of
requirements and priorities for further network management
specifications for NGN
TR 188 004 V1.1.1 (2005-05) NGN Management; OSS vision
Pub
SG 4
App
SG 4
App
Pub
SG 4
SG 4
AbC
SG 4
Pub
SG 4
Pub
SG 4
46