Post on 04-Jan-2016
ITU-T IP Related Studies
Arshey OdedraArshey Odedra
ITU-T TSB Engineer: arshey.odedra@itu.intTSB Engineer: arshey.odedra@itu.int
International Telecommunication UnionInternational Telecommunication Union[ITU-T Seminar Botswana 24-26 July – 2002][ITU-T Seminar Botswana 24-26 July – 2002]
ITU-T IP Related Studies
• (1) ITU-T IP Project• (2) ) ITU-T SG11Signalling & IP activities
(3)IP Cable Communications • (4)IP-QoS/Performance • (5)IP-Optical Perfce • (6)Numbering• (7)IP and Security• (8)Multimedia (MM)
(1) The ITU-T IP Project
• ‘ITU-T IP Project’ Cover IP related ITU-T
work
• Project Doc Issue 4: SG13 Website
Scope of the Project
SG13 IP Work
• Y.1231 - IP Access Network Architecture
• Y.1310 - Transport of IP over ATM in public networks
• Y.1401 - General requirements for interworking with IP-based Networks
• Y.1241 - Support of IP-based services using IP transfer capabilities
SG13 IP work
• Y.17oam - OAM and protection switching for IP-based networks
• Y.1540 - IP packet transfer and availability performance parameters
• Y.1541 - IP performance objectives and allocations • Y.1311 - IP VPN • Y.1311.1 - IP VPN over MPLS
• Y.satip - Satellite IP networking architecture • Y.123qos - IP access quality of service
• Y.ipbypass - IP bypass in access networks
SG13 Future Plans
• SGs continue to build links with the IETF
• SG13 develop and manage the IP Project
(2) ITU-T SG11Signalling & IP activities
• SCOPE:• Defines Signalling requirements and protocols for:
– enhancements to existing Recommendations on access (UNI) and (inter)-network (NNI) signalling protocols for PSTN, ISDN and Packet (ATM and IP)-based networks
– Some Mobility & MM related functions– the support of voice, data and Multi-media communications and
services– emerging NGN architectures, signalling requirements, and
control Protocols including Internet Protocol (IP) related control functions
• Lead Study Group for IN
ITU-T SG11 Current work focus:
• Interactions between IN and IP-based networks
• IP-related signalling protocols
• Bearer (ATM, IP) Independent Call Control (i.e. BICC)
• Signalling transport over IP
SS7 Convergence towards Packet based Networks
- Intelligent Network architecture and protocols enhanced
- For Call control signalling, Bearer Independent Call Control (BICC) protocols - over Packet based transport networks – BICC Recs approved (2000 & 2001).– BICC CS3 Recs approval target: 2003.
(3) IP Cable Communnications
• IPCablecom (SG9)
• Defines architecture and interface specs
interactive services over cable television network using IP
• Market driver: IP telephony
IPCablecom Service Possibilities
• Residential/ Business IP Telephony
• Video IP telephony
• Voice/data/video unified messaging
• Enhanced conferencing and media services
• Entertainment Services
Real-time multiplayer interactive gaming
AN Access NodeCM Cable ModemCMS Call Management ServersHFC Hybrid Fiber Coax networkMTA Multimedia Terminal AdapterPSTN Public Switched Tel. Network
Embedded MTA
IPCablecom Components
PSTN
PSTNGateway
CMS
CMMTA
Back OfficeServers
Managed IPNetwork
AN
CM
HFC
IPCablecom Recs. for interoperability intra-zone and with PSTN
ArchitectureJ.160 Architecture
SignalingJ.162 Network Call SignallingJ.165 IPCablecom Signalling Transport ProtocolJ.171 Trunk Gateway Control Protocol
Quality of ServiceJ.163 Dynamic QoS
Media/CodecsJ.161 Audio Codec
Requirements.
OSSJ.164 Event MessagingJ.166 MIB FrameworkJ.167 MTA ProvisioningJ.168 MTA MIBJ.169 NCS MIB
SecurityJ.170 (02/02) Security
A set of recommendations approved (2001/2002)
IPCablecom Recs. for interoperability inter-zone and inter-domain directly over
managed IP backbones
Quality of ServiceJ.174 (02/02)Inter-domain QoS
Security
J.170 (02/02) Security
ArchitectureFor further study
SignalingFor further study
OSSJ.164 (03/01) Event
Messaging
(4)IP-QoS/Performance
•QoS Classes : Basis for IP Network QoS Control
•IP QoS control: IP/PSTN network convergence
•Y.1541(05/2002)
•Y.1540=I.380
QoS signaling protocols Y.1541
Some Discussion topics on IP Network QoS Control
• Harmonised IP QoS signaling
• Interworking IP QoS mechanisms
(5) IP-Optical Network & Performance Aspects
• IP-Optical Networks: Motivation
- Infrastructure Attributes
- Capabilities
- Operational Benefits
IP/Optical Networks:Performance Benefits & Challenges
• Performance Benefits– Increased transmission capacity
– Reduced packet transfer delay, delay variation, loss, error
– Lower call set up delays and blocking probabilities
– Improved service availability
• Some Challenges– Specify interoperable performance signaling protocols
– Relate IP user/client requirements with control mechanisms
– Define compatible network management strategies
IPPM and Question 6/13
• New RFCs – Loss Patterns
– Bulk Transfer Capacity
• Current (IETF) Drafts – Packet Reordering
– Active Meas. Protocol Req.
– IPPM MIB
• New Work on– Link Bandwidth Capacity
• Performance Objectives– Y.1541 (May 2002), six
QoS Classes
• Suggest QoS Signaling Support/Methods
• Parameter Revisions– Y.1540 (Nov 2002)
• “other” Packet Transfer – MPLS?
(6) Numbering
• ENUM Significance: - Mapping telephone numbers onto Internet.- Could allow conventional telephones to call IP terminals (PCs).- ITU Responsibility: Define and implement administrative procedures that coordinate delegations of E.164 numbering resources into the agreed DNS name servers- Draft Recommendation E.A-ENUM is being prepared by
Study Group 2: (target E.A-ENUM, Dec. 2002?)
(7)IP and Security
Directory Access Control with X.509 Attribute Certificates:
• The user given Attribute Certificate (AC) which strongly binds his/her name to the privileges being given to him/her
• The AC is signed by the Attribute Authority (Resource Owner or his delegate)
• Similar to X.509v3 certificate, only holds a sequence of attributes rather than a public key
• An attribute certificate can be stored anywhere since it is secure and self contained
Standardisation Work ofQ.9/17
• Friends attributes in X.501, X.511• Distributed page results service in X.518• Related Entries in X.501, X.511, X.518• Alignment with IETF standards• Defect reports in entire X.500-series
SSG Role on Security
• Q.3/SSG Identification of existing and evolving IMT-2000 Systems– Q.1741 3GPP security specifications
• Q.1/SSG Service and network capability requirements andnetwork architecture
• & Q.7/SSG Convergence of fixed and existing IMT-2000 systems
Study Group 16 - Security-relatedQs in the MediaCom2004 project
Q.C/16 - MM Applications & Services F.706
Q.D/16 - Interoperability of MM Systems & Services
Q.G/16 - Security of MM Systems & Services H.233, H.234, H.235
Q.1/16
MM Systems, Terminals &
Data Conferencing
H.320
H.324
T.120
Q.2/16
MM over Packet
Networks using H.323
systems
H.225.0
H.323
H.450
H.460
Q.3/16
Infrastructure &
Interoperability for MM over
Packet Network Systems
H.245
H.246
H.248
Q.4/16
Video and Data
conferencing using
Internet supported Services
Q.5/16Mobility for MM
Systems &
Services
H.501
H.510
H.530
Q.F/16 - MM Quality of Service & E-2-E Performance in MM Systems
Q.G/16 Work and Study ItemsSome Highlights
• Investigate confidentiality and privacy of all signaling
• Address centralized key management for MM systems
• Security for MM Mobility• Optimize voice encryption, develop video
encryption• MM security support for emergency services• Consolidate or develope new security profiles• Security interworking H.323-SIP
Emergency Telecoms Services (ETS) Security for MM Applications and Systems• Security objectives:
– prevent theft of service and denial of service by unauthorized user
– support access control and authorization of ETS users
– confidentiality and integrity of calls– provide rapid and user-friendly authentication of
ETS users
• H.SETS : provisional title for a new work item under study in Q.G/16 - focus on the multimedia security aspects of ETS
(8)Multimedia (MM)
ITU-T Study Group 16 Project: MediaCom 2004
Objective:
• to create a framework for the harmonized and coordinated development of multimedia communication standardization for use across all ITU-T and ITU-R Study Groups, and in close cooperation with other regional and international SDOs and industry forums
MEDIACOM 2004 Framework in SG16
MEDIACOM 2004 (Q A/16)
Generic Questions B/16 to H/16
Framework Standardisation Areas (FSA)
Equipment and system questions
1/16 to 15/16
FSA Framework Study AreasFSA Framework Study Areas
• Project MediaCom 2004Project MediaCom 2004 (A/16)(A/16)
• MM Architecture (B/16)• MM Applications and Services (C/16)• Interoperability of MM Systems and Services (D/16)• Media Coding (E/16) • QoS & E-to-E performance in MM Systems (F/16) • Security of MM Systems and Services (G/16) • Accessibility (H/16)
Framework Study Areas (FSA)Framework Study Areas (FSA)
F.MDS
Se
rvice D
escriptio
nsT
echn
ical D
escrip
tions
T.130
H.263
H.262H.261
H.243
H.231
H.320
H.242
H.230
H.221
Q.931
ISDN
ISDN
F.MCS.1 = F.731
F.MCV.1
F.MRS.1
F.MDS.1
N. A.
H.324
H.245
H.223
Q.23
PSTN
PSTN
F.MCS.3
F.MCV.3
F.MRS.3
F.MDS.3
N. A.
H.324
H.245
H.223
F.MCS.4
F.MCV.4
F.MRS.4
F.MDS.4
Q.---
Mobiles
Mobiles
Terminals or End-points
Multipoint
In-band Signalling
Multiplex
Call Control
B-ISDN
B-ISDN
H.247
H.321
H.310
H.245
H.222.1
H.222.0
Q.2931
F.MCS.2 = F.732
F.MCV.2
F.MRS.2
F.MDS.2
Network Independent Recommendations Network Specific Recommendations
Video CodingAudio CodingProtocols
G.729
G.728
G.723G.722
Communication Capabilities :
F.700Service Description Process
F.MRS
F.MCVS
F.MCS = F.702
Generic Multimedia Services
H.332
H.323
H.245
H.225.0
Packets
Packets
F.MCS.5
F.MCV.5
F.MRS.5
F.MDS.5
G.711
Media Comp.
Comm. Tasks
MSEs
MSEs = middleware service elements
T.120
H.248
MM Element InterdependenceU
ser
pers
pect
ive
Equ
ipm
ent/
prot
ocol
per
spec
tive
33THANK YOU
GENEVA