GSC-12 - ITU-T security standardization

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Transcript GSC-12 - ITU-T security standardization

SOURCE:
ITU-T
TITLE:
Telecommunication Security
AGENDA ITEM:
CONTACT:
[Insert Document File
Name]
Telecommunication Security
Herbert Bertine
Chairman, ITU-T Study Group 17
Standards
Cooperation
Awareness
ITU-T Study Groups
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SG 2*
Operational aspects of service provision, networks and
performance
SG 3 Tariff and accounting principles including related telecommunications
economic and policy issues
SG 4* Telecommunication management
SG 5
Protection against electromagnetic environment effects
SG 6
Outside plant and related indoor installations
SG 9
Integrated broadband cable networks and television and sound
transmission
SG 11* Signalling requirements and protocols
SG 12 Performance and quality of service
SG 13* Next generation networks
SG 15 Optical and other transport network infrastructures
SG 16* Multimedia terminals, systems and applications
SG 17** Security, languages and telecommunication software
SG 19 Mobile telecommunication networks
* Significant security work
** Lead Study Group on Security
ITU-T Security Building Blocks
Security Architecture
Framework
(X.800-series)
Security Techniques
(X.841,2,3)
Protocols
(X.273,4)
Network Management
Security
(M.3000-series)
New
Telecommunication
Security
(X.805, X.1000-series)
Systems Management
(X.733,5,6, X.740,1)
Facsimile
(T-series)
New
Directory Services and
Authentication
(X.500-series)
Security
in Frame Relay
(X.272)
NGN Security
(Y.2700-series)
Message Handling
Systems (MHS)
(X.400-series)
Televisions and Cable
Systems
(J-series)
Multimedia
Communications
(H-series)
Study Group 17:
Security, languages and
telecommunication software
 SG 17 is the Lead Study Group on telecommunication
security - It is responsible for coordination of security
across all study groups.
 Subdivided into three Working Parties (WPs)
• WP1 - Open systems technologies;
• WP2 - Telecommunications security; and
• WP3 - Languages and telecommunications software
 Most (but not all) security Questions are in WP2
 Summaries of all draft new or revised Recommendations
under development in SG 17 are available on the SG 17
web page at http://www.itu.int/itu-t/studygroups/com17
Working Party 2/17 Work Program
Telecom
Systems Users
Telebiometrics
Q.7/1
7
Security
Management
* ISMS-T
* Incident
management
* Risk
assessment
methodology
Telecom
Systems
Q.8/17
* Multimodal model framework
* System mechanism
* Protection procedure
Secure Communication Services
* Secure mobile communications
* Home network security
* Web services security
Q.9/1
Cyber Security
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* Vulnerability information sharing…
* Incident handling operations
* Identity management
Q.6/1
Countering spam by technical 7
means
* Technical anti-spam measures
Q.4/1
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Communications System Security Project
Q.5/1
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Security
Architecture
and
Framework
* Architecture,
* Model,
* Concepts,
* Frameworks
Q.17/1
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*Vision, Project, Roadmap, …
Examples of recently approved
security Recommendations
M.3016.0,
1, 2, 3, 4
Security for the management plane: Overview, Security requirements, Security services,
Security mechanism, Profile proforma
X.509
Information technology – Open Systems Interconnection – The Directory: Public-key and
attribute certificate frameworks
X.805
Security architecture for systems providing end-to-end communications
X.893
Information technology – Generic applications of ASN.1: Fast infoset security
X.1035
Password-authenticated key exchange (PAK) protocol
X.1051
Information security management system - Requirements for telecommunications (ISMS-T)
X.1081
The telebiometric multimodal model - A framework for the specification of security and
safety aspects of telebiometrics
X.1111
Framework for security technologies for home network
X.1121
Framework of security technologies for mobile end-to-end communications
X.1122
Guideline for implementing secure mobile systems based on PKI
X.1141
Security Assertion Markup Language (SAML 2.0)
X.1142
eXtensible Access Control Markup Language (XACML 2.0)
Y.2701
Security requirements for NGN release 1
Extract from current SG 17 security
work program (~50 items total)
Q.
Acronym
Title or Subject
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X.akm
Framework for EAP-based authentication and key management
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X.1205
Overview of cybersecurity
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X.idmf
Identity management framework
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X.gopw
Guideline on preventing worm spreading in a data communication network
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X.1051
(Revised)
Information security management guidelines for telecommunications based
on ISO/IEC 27002
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X.rmg
Risk management guidelines for telecommunications
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X.bip
BioAPI interworking protocol
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X.tai
Telebiometrics authentication infrastructure
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X.homesec-2,
3, 4
Certificate profile for the device in the home network, User authentication
mechanisms for home network service, Authorization framework for home
network
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X.msec-3
General security value added service (policy) for mobile data communication
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X.p2p-1
Requirements of security for peer-to-peer and peer-to-multi peer
communications
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X.websec-3
Security architecture for message security in mobile web services
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X.csreq
Requirement on countering spam
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X.fcsip
Framework of countering IP multimedia spam
Study Group 13 - Question 15/13
NGN Security: work in progress
Y.IdMsec
NGN identity management security
Y.NGN AAA
AAA application for implementation of network and service security
requirements over NGN
Y.NGN
Authentication
NGN Authentication
Y.NGN Certificate
Management
NGN certificate management
Y.SecMechanisms
NGN Security mechanisms and procedures
Y.SecReqR2
Security requirements for NGN release 2
Security standardization
Collaboration is key
Specific Systems, Services, Applications
Security in ITU-T are developed by
SG 2, 3, 4, 5, 6, 9, 11, 13, 15, 16, 19
Core Technology and Common Security
Techniques in ITU-T are developed
by SG 17
JTC 1 SC 27, 37...
IETF
ATIS, ETSI, OASIS, etc.
Security standardization
Collaboration is key
 World Standards Cooperation (WSC) ISO, IEC, ITU
 Global Standards Collaboration (GSC) Regional, National
SDOs and ITU-T, ITU-R
• exchange information between participating standards organizations
to facilitate collaboration and to support the ITU as the preeminent
global telecommunication and radiocommunication standards
development organization
• Resolution GSC-11/17 Cybersecurity
 Security Standardization Exchange Network (SSEN)
• an informal association of individual security practitioners with direct
experience of, or strong interest in, security standardization
• facilitate the informal exchange of information on securitystandards-related matters to increase overall awareness of issues of
common interest with the intention of helping to advance the
development of needed standards and minimizing overlap and
duplication of effort in security standards development
Security standardization
Collaboration is key
ISO/IEC/ITU-T Strategic Advisory Group on Security (SAG-S)
 Terms of Reference
• To oversee standardization activities in ISO, IEC and ITU-T
relevant to the field of security
• To provide advice and guidance to the ISO Technical
Management Board, the IEC Standardization Management
Board and the ITU-T Telecommunication Standardization
Advisory Group (TSAG) relative to the coordination of work
relevant to security, and in particular to identify areas where new
standardization initiatives may be warranted
• To monitor implementation of the SAG-S Recommendations
 International workshop on security topics planned in
conjunction with each SAG-S meeting
• International Workshop on Transit Security, Washington DC, 4-5
October 2007
 Security portal under development
Focus Group: Security Baseline for
Network Operators (FG SBNO)
http://www.itu.int/ITU-T/studygroups/com17/sbno/index.html
 Established October 2005 by SG 17
 Objectives:
• Define a security baseline against which network operators can assess
their network and information security posture in terms of what security
standards are available, which of these standards should be used to
meet particular requirements, when they should be used, and how they
should be applied
• Describe a network operator’s readiness and ability to collaborate with
other entities (operators, users and law enforcement authorities) to
counteract information security threats
• Provide meaningful criteria that can be used by network operators
against which other network operators can be assessed, if required
 Achieved
• Surveyed network operators by means of a questionnaire
 Next step:
• Develop text to be proposed to SG 17 for progressing as an ITU-T
publication
Focus Group: Identity
Management (FG IdM)
http://www.itu.int/ITU-T/studygroups/com17/fgidm/index.html
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Established December 2006 by SG 17
The objectives of the FG IdM are
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Working Group structure
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to perform requirements analysis based on uses case scenarios, in order
to identify generic IdM framework components, so that
a standards gap analysis can be completed, in order
to identify new standards work and the bodies (ITU and other SDOs) that
should perform the work
Ecosystem and Lexicon Working Group
Use Cases Working Group
Requirements Working Group
Framework Working Group
Aggressive schedule
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Meetings held: February, April and May 2007; WG meeting June
Meetings planned: July and August 2007
ICT Security Standards Roadmap
http://www.itu.int/ITU-T/studygroups/com17/ict/index.html
 Part 1 contains information about organizations
working on ICT security standards
 Part 2 is the database of existing security standards
 Part 3 is a list of standards in development
 Part 4 identifies future needs and proposed new
standards
 Part 5 includes security best practices
European Network and Information Security Agency
(ENISA) and the Network and Information Security
Steering Group (NISSG) are collaborating with ITU-T in
the development of the Roadmap
ICT Security Standards Roadmap
http://www.itu.int/ITU-T/studygroups/com17/ict/index.html
 Part 2 currently includes ICT security standards from
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ITU-T
ISO/IEC JTC 1
IETF
IEEE
ATIS
ETSI
OASIS
 Data is available in a database format to allow searching
by organization and topic and to allow organizations to
manage their own data
 We invite you to contribute content to the Roadmap,
provide feedback and help us develop it to meet your
needs
Other projects
 Security in Telecommunications and Information
Technology (ITU-T Security manual)
• Overview of existing ITU-T Recommendations for secure
telecommunications
• Third edition of June 2006 to be available in the six official
languages of the ITU
• http://www.itu.int/ITU-T/publications/index.html
 Security compendium
• Catalogue of approved ITU-T Recommendations related to
telecommunication security
• Extract of ITU-T approved security definitions
• Summary of ITU-T Study Groups with security-related
activities
• http://www.itu.int/ITU-T/studygroups/com17/tel-security.html
The ITU Global Cybersecurity Gateway
LIVE at: http://www.itu.int/cybersecurity
Provides an easy-to-use information resource on national, regional and
international cybersecurity-related activities and initiatives worldwide.
Observations
 Security is everybody's business
 Collaboration with other SDOs is necessary
 Security needs to be designed in upfront
 Security must be an ongoing effort
 Systematically addressing vulnerabilities
(intrinsic properties of networks/systems) is key
so that protection can be provided independent of
what the threats (which are constantly changing
and may be unknown) may be
Some useful web resources
 ITU-T Home page
http://www.itu.int/ITU-T
 Study Group 17
http://www.itu.int/ITU-T/studygroups/com17
• e-mail:
[email protected]
 Recommendations
http://www.itu.int/ITU-T/publications/recs.html
 ITU-T Lighthouse
http://www.itu.int/ITU-T/lighthouse
 ITU-T Workshops
http://www.itu.int/ITU-T/worksem
Supplemental Information on Security
Work in ITU-T
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Study Group 17 - Security, languages and telecommunication software
Study Group 4 - Telecommunication management
Study Group 11 – Signalling requirements and protocols
Study Group 13 - Next generation networks
Study Group 16 - Multimedia terminals, systems and applications
ITU-T SG 17 work on security
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Q.4/17 - Communications systems security project
Q.5/17 - Security architecture and framework
Q.6/17 - Cyber security
Q.7/17 - Security management
Q.8/17 - Telebiometrics
Q.9/17 - Secure communication services
Q.17/17 - Countering spam by technical means
ITU-T SG 17 Question 4
Communications Systems Security Project
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Overall Security Coordination
ICT Security Standards Roadmap
Security Compendium
Focus Group on Security Baseline For Network
Operators
 ITU-T Security manual
Efforts of Q.4/17 are covered in the main part of the
presentation
ITU-T SG 17 Question 5
Security Architecture and Framework
 Brief description of Q.5
 Milestones
 Draft Recommendations under development
Brief description of Q.5/17
 Motivation
• The telecommunications and information technology industries are
seeking cost-effective comprehensive security solutions that could
be applied to various types of networks, services and applications.
To achieve such solutions in multi-vendor environment, network
security should be designed around the standard security
architectures and standard security technologies.
 Major tasks
• Development of a comprehensive set of Recommendations for
providing standard security solutions for telecommunications in
collaboration with other Standards Development Organizations and
ITU-T Study Groups.
• Maintenance and enhancements of Recommendations in the X.800
series:
X.800, X.802, X.803, X.805, X.810, X.811, X.812, X.813, X.814, X.815, X.816,
X.830, X.831, X.832, X.833, X.834, X.835, X.841, X.842 and X.843
Q.5/17 Milestones
 ITU-T Recommendation X.805, Security Architecture for
Systems Providing End-to-end Communications
• Approved in 2003
 ISO/IEC Standard 18028-2, Network security
architecture
• Developed in collaboration between ITU-T Q.5/17 and ISO/IEC
JTC 1 SC 27 WG 1. It is technically aligned with X.805
• Published in 2006
 ITU-T Recommendation X.1035, Passwordauthenticated key exchange (PAK) protocol
• Specifies a password-based protocol for authentication and key
exchange, which ensures mutual authentication of both parties in
the act of establishing a symmetric cryptographic key via DiffieHellman exchange
• Approved in 2006
ITU-T Recommendation X.805
End-user plane
Control plane
Management plane
THREATS
Privacy
Destruction
Availability
Data integrity
Communication security
Data confidentiality
Infrastructure security
Non-repudiation
VULNERABILITIES
Authentication
Services security
Access control
Security layers
Applications security
Corruption
Removal
Disclosure
Interruption
ATTACKS
8 Security dimensions
X.805_F3
X.805 defines a network security architecture for providing
end-to-end network security. The architecture can be applied to
various kinds of networks where the end-to-end security is a
concern and independently of the network’s underlying
technology.
Q.5/17 Draft Recommendations 1/2
 Applications and further development of major
concepts of ITU-T Recommendation X.805
• X.805+, Division of the security features between the
network and the users
Specifies division of security features between the networks
and users. It provides guidance on applying concepts of the
X.805 architecture to securing service provider’s, application
provider’s networks and the end user’s equipment
• X.805nsa, Network security assessment/guidelines
based on ITU-T Recommendation X.805
Provides a framework for network security
assessment/guidelines based on ITU-T Recommendation
X.805, Security Architecture for Systems Providing End-toEnd Communications
Q.5/17 Draft Recommendations 2/2
 Standardization in support of Authentication Security
Dimension (defined in X.805)
• X.akm, Framework for authentication and key management for
link layer security of NGN
Establishes a framework for authentication and key management
for securing the link layer. It also provides guidance on selection
of the EAP methods.
 Standardization of network security policies
• X.spn, Framework for creation, storage, distribution, and
enforcement of security policies for networks
• Establishes security policies that are to drive security controls of
a system or service. It also specifies a framework for creation,
storage, distribution, and enforcement of policies for network
security that can be applied to various environmental conditions
and network devices.
ITU-T SG 17 Question 6
Cyber Security
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Motivation
Objectives
Scope
Current area of focus
Draft Recommendations under development
Q.6/17 Motivation
 Network connectivity and ubiquitous access is central to today’s IT
systems
 Wide spread access and loose coupling of interconnected IT
systems is a primary source of widespread vulnerability
 Threats such as: denial of service, theft of financial and personal
data, network failures and disruption of voice and data
telecommunications are on the rise
 Network protocols in use today were developed in an environment of
trust
 Most new investments and development is dedicated to building
new functionality and not on securing that functionality
 An understanding of cybersecurity is needed in order to build a
foundation of knowledge that can aid in securing the networks of
tomorrow
Q.6/17 Objectives
 Perform actions in accordance with Lead Study Group (LSG)
responsibility with the focus on Cybersecurity
 Identify and develop standards required for addressing the challenges
in Cybersecurity, within the scope of Q.6/17
 Provide assistance to other ITU-T Study Groups in applying relevant
cybersecurity Recommendations for specific security solutions. Review
project-oriented security solutions for consistency
 Maintain and update existing Recommendations within the scope of
Q.6/17 (this includes E.409)
 Coordinate security activities with other ITU-T SGs, ISO/IEC JTC 1 e.g.,
SC 6, SC 27 and SC 37), and consortia as appropriate
 Provide awareness on new security technologies related to
Cybersecurity
 Provide an Identity Management Framework that defines the problem
space, representative use case scenarios and requirements. This
includes leveraging other on-going Identity Management activities
 Collaborate with Next Generation Networks activities in ITU-T in the
areas of Cybersecurity and Identity Management
Q.6/17 Scope
 Definition of Cybersecurity
 Security of Telecommunications Network Infrastructure
 Security Knowledge and Awareness of Telecom Personnel and
Users
 Security Requirements for Design of New Communications Protocol
and Systems
 Communications relating to Cybersecurity
 Security Processes – Life-cycle Processes relating to Incident and
Vulnerability
 Security of Identity in Telecommunication Network
 Legal/Policy Considerations
Q.6/17 Current Area of Focus 1/2
 Work with SG 2 on the definition and requirements of Cybersecurity
 Collaborate with Q5,7,9,17/17 and SG 2 in order to achieve better
understanding of various aspects of network security
 Collaborate with IETF, OASIS, ISO/IEC JTC1, W3C, APEC-TEL and
other standardization bodies on Cybersecurity
 Work with OASIS on adopting the OASIS Common Alerting Protocol
V1.1 as an ITU-T Recommendation
 Work on framework for secure network operations to address how
telecommunications network providers secure their infrastructure and
maintain secure operations
 Work on Recommendation for standardization of vulnerability data
definition
 Work on network security management framework to address how
telecommunications operators operate uniformly various kind of
security functions
 Study new Cybersecurity issues – How should ISPs deal with botnets,
evaluating the output of appropriate bodies when available
Q.6/17 Current Area of Focus 2/2
 Work on Recommendations on Identity Management (IdM)
addressing the following areas:
• An umbrella Recommendation that determines IdM security
requirements from ITU-T prospective
• An umbrella Recommendation that defines a framework and
architecture(s) for IdM after identifying IdM security mechanisms that
needs to be addressed
• An umbrella Recommendation that assesses security threats and
vulnerabilities associated with IdM
• Collaborate with Q.15/13 on NGN IdM issues
 Develop guidelines on the protection of personal information and
privacy
 Call for contributions for the outstanding questions identified in the
revised scope
 Promote the wide adoption of IdM through the IdM Focus Group that
considers the challenges and issues associated with IdM across
various SDO and consortia
Q.6/17 Draft Recommendations 1/5
1.
Overview of Cybersecurity (X.1205, formerly X.cso)
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Provides a definition for Cybersecurity and a taxonomy of security threats
from an operator point of view. Cybersecurity vulnerabilities and threats
are presented and discussed at various network layers.
Various Cybersecurity technologies that are available to remedy the
threats include: Routers, Firewalls, Antivirus protection, Intrusion
detection systems, Intrusion protection systems, Secure computing, Audit
and Monitoring. Network protection principles such as defence in depth,
access and identity management with application to Cybersecurity are
discussed. Risk Management strategies and techniques are discussed
including the value of training and education in protecting the network. A
discussion of Cybersecurity Standards, Cybersecurity implementation
issues and certification are presented.
A vendor-neutral framework for automatic checking of the
presence of vulnerabilities information update (X.vds)
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Provides a framework of automatic notification on vulnerability
information. The key point of the framework is that it is a vendor-neutral
framework. Once users register their software, updates on the
vulnerabilities and patches of the registered software will automatically
be made available to the users. Upon notification, users can then apply.
Q.6/17 Draft Recommendations 2/5
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Guidelines for Internet Service Providers and End-users for
Addressing the Risk of Spyware and Deceptive Software
(X.sds)
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Provides guidelines for Internet Service Providers (ISP) and end-users
for addressing the risks of spyware and deceptive software. The
Recommendation promotes best practices around principles of clear
notices, and users’ consents and controls for ISP web hosting services.
The Recommendation also promotes best practices to end-users on the
Internet to secure their computing devices and information against the
risks of spyware and deceptive software.
Identity Management Framework (X.idmf)
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Develops an Identity Management Framework that leverages the use
case scenarios as it applies to Telecommunications and includes nonTelecom applications when (i.e., the orchestration of business
processes that include supply change management, client resource
management, enterprise resource management, location, presence,
and other services). The framework enables service providers to
provide entities with reliable, trusted and secure IdM services over
distributed networks, through the appropriate use of authorization,
authentication, access control mechanisms, and policy management
mechanisms.
Q.6/17 Draft Recommendations 3/5
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Identity Management Requirements (X.idmr)
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Develops use case scenarios and requirements for the Identity
Management Framework Recommendation (X.idmf). The developed
use cases cover Telecommunications and non-Telecom scenarios (i.e.,
the orchestration of business processes that include supply change
management, client resource management, enterprise resource
management, location, presence, and other services).
Identity Management Security (X.idms)
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Performs security analysis on the identity Management Framework as
developed in X.idmf. The Recommendation develops guidelines and
best practice approach for ensuring that security is maintained when
the Identity Management Framework is used as the vehicle for
providing Telecommunications and non-Telecom IdM solutions.
Q.6/17 Draft Recommendations 4/5
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Common Alerting Protocol (CAP v1.1), (X.1303, formerly X.cap)
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Specifies the common alerting protocol (CAP) which is a simple but
general format for exchanging all-hazard emergency alerts and public
warnings over all kinds of networks. CAP allows a consistent warning
message to be disseminated simultaneously over many different
warning systems, thus increasing warning effectiveness while
simplifying the warning task. CAP also facilitates the detection of
emerging patterns in local warnings of various kinds, such as might
indicate an undetected hazard or hostile act. And CAP provides a
template for effective warning messages based on best practices
identified in academic research and real-world experience.
This Recommendation is technically equivalent and compatible with the
OASIS Common Alerting Protocol, v.1.1 standard.
ASN.1 specification for the Common Alerting Protocol (CAP v1.1),
(X.1303.1, formerly X.cap2)
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The common alerting protocol (CAP) is specified in ITU-T Rec. X.1303,
which is technically equivalent and compatible with the OASIS
Common Alerting Protocol, V1.1 standard. This Recommendation
provides an equivalent ASN.1 specification that permits a compact
binary encoding and the use of ASN.1 as well as XSD tools for the
generation and processing of CAP messages. This Recommendation
enables existing systems, such as H.323 systems, to more readily
encode, transport and decode CAP messages.
Q.6/17 Draft Recommendations 5/5
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Privacy guideline for RFID (X.rfpg)
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Recognizes that as RFID greatly facilitates the access and dispersion
of information pertaining specifically to the merchandise that
individuals wear and/or carry; it creates an opportunity for the same
information to be abused for tracking an individual's location or
invading their privacy in a malfeasant manner. For this reason the
Recommendation develops guidelines and best practices regarding
RFID procedures that can be used by service providers to gain the
benefits of RFID while attempting to protect the privacy rights of the
general public within national policies.
Network Security Management Framework (X.nsmf)
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Defines the framework for security management to address how
telecom-operators can uniformly operate various kinds of security
functions.
Guideline on preventing worm spreading in a data communication
network (X.gopw)
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Describes worm spreading patterns and scenarios in a data
communication network. In addition, it specifies countermeasures to
prevent from worm spreading. This Recommendation can be used as
a guideline to network designers, network operator, and end users for
preventing Worm spreading.
ITU-T SG 17 Question 7
Security Management
 Tasks
 Plan on Recommendations
 Revised Recommendation X.1051
Q.7/17 Tasks
 Information Security Management Guidelines for
telecommunications
• (Existing X.1051, Information security management system –
Requirements for telecommunications (ISMS-T))
• Maintain and revise Recommendation X.1051, “Information Security
Management Guidelines for telecommunications based on
ISO/IEC27002”.
• Jointly develop a guideline of information security management with
ISO/IEC JTC 1/SC 27 (ISO/IEC 27031 =.Recommendation X.1051).
 Risk Management Methodology
• Study and develop a methodology of risk management for
telecommunications in line with Recommendation X.1051.
• Produce and consent a new ITU-T Recommendation for risk
management methodology.
 Incident Management
• Study and develop a handling and response procedure on security
incidents for the telecommunications in line with Recommendation
X.1051.
• Produce and consent a new ITU-T Recommendation for incident
management methodology and procedures.
Q.7/17 plan on Recommendations
X.1050: To be proposed
X.1051: In revision process
Information Security Management Guidelines for
Telecommunications based on ISO/IEC 27002
X.1052: To be proposed
X.1053: To be proposed
(Implementation Guide for Telecommunications)
X.1054: To be proposed
(Measurements and metrics for Telecommunications)
X.1055: In the first stage of development
Risk Management Guidelines for Telecommunications
X.1056: In the first stage of development
Security Incident Management Guidelines for Telecommunications
X.1057: To be proposed
(Identity Management for Telecommunications)
Information security management guidelines
for Telecommunications (Revised X.1051)
Revised X.1051
Security policy
Organising information security
Asset management
Human resources security
Information Assets
for Telecom
Physical & environmental
security
Communications & operations
management
Access control
Information systems acquisition,
development and maintenance
ISMS Process
CONTROL
CONTROL
CONTROL
Implementation
guidance
Implementation
guidance
for Telecom
Implementation
requirements
for Telecom
Other
information
Information security incident
management
Business continuity management
Compliance
ISO/IEC 17799
(2005)
Other
information
Revised
X.1051
Existing
X.1051
(2004)
Approach to develop the revised
Recommendation X.1051
ITU-T SG 17 Question 8
Telebiometrics
 Objectives
 Study areas on biometric processes
 Recommendations
Q.8/17 Objectives
1) To define telebiometric multimodal model
framework
2) To specify biometric authentication mechanism
in open network
3) To provide protection procedures and
countermeasures for telebiometric systems
Q.8/17 Study areas on
Biometric Processes
X.1081
X.Physiol
Safety conformity
X.tai: Telebiometrics Authentication Infrastructure
X.bip: BioAPI Interworking Protocol
X.tsm: Telebiometrics System Mechanism
X.tpp: Telebiometrics Protection Procedure
Storage
Biometric
Sensors
Acquisition
(capturing)
NW
NW
NW
Matching
Extraction
Score
NW
NW:Network
Decision
NW
Yes/No
Application
Q.8/17 Recommendations 1/3
1)
X.1081, The telebiometric multimodal model framework – A
framework for the specification of security and safety aspects
of telebiometrics
Defines a telebiometric multimodal model that can be used as a framework
for identifying and specifying aspects of telebiometrics, and for classifying
biometric technologies used for identification (security aspects).
2)
X.physiol, Telebiometrics related to human physiology
Gives names and symbols for quantities and units concerned with emissions
from the human body that can be detected by a sensor, and with effects on
the human body produced by the telebiometric devices in his environments.
3)
X.tsm-1, General biometric authentication protocol and profile
on telecommunication system
Defines communication mechanism and protocols of biometric
authentication for unspecified end-users and service providers on open
network.
Q.8/17 Recommendations 2/3
4)
X.tsm-2, Profile of telecomunication device for Telebiometrics
System Mechanism (TSM)
Defines the requirements, security profiles of client terminals for biometric
authentication over the open network.
5)
X.tai, Telebiometrics authentication infrastructure
Specifies a framework to implement biometric identity authentication
with certificate issuance, management, usage and revocation.
6)
X.bip, BioAPI interworking protocol
Common text of ITU-T and ISO/IEC JTC 1/SC 37. It specifies the syntax,
semantics, and encodings of a set of messages ("BIP messages") that
enable BioAPI-conforming application in telebiometric systems.
Q.8/17 Recommendations 3/3
7)
X.tpp-1, A guideline of technical and managerial
countermeasures for biometric data security
Defines weakness and threats in operating telebiometric systems and
proposes a general guideline of security countermeasures from both
technical and managerial perspectives.
8)
X.tpp-2, A guideline for secure and efficient transmission of
multi-modal biometric data
Defines threat characteristics of multi-modal biometric system, and provides
cryptographic methods and network protocols for transmission of multimodal biometric data.
ITU-T SG 17 Question 9
Secure Communication Services






Focus
Position of each topic
Mobile security
Home network security
Web services security
Secure applications services
Q.9/17 Focus
 Develop a set of standards of secure application
services, including
•
•
•
•
•
•
•
Mobile security Under study
Home network security Under study
Web services security Under study
Secure application services Under study
Privacy protection for RFID Under study
Multicast security Under study
Multimedia content protection To be studied
Position of each topic
Web Services security
Application
Server
Privacy protection for RFID
Mobile
Terminal
Mobile Network
Open Network
Home
Network
Home network
security
Mobile security
Secure application services
Multicast security
Q.9/17 - Mobile Security
 X.1121, Framework of security technologies for mobile end-to-end
data communications
•
Approved 2004
 X.1122, Guideline for implementing secure mobile systems based
on PKI
• Approved 2004
 X.msec-3, General security value added service (policy) for
mobile data communication
• Develops general security service as value added service for secure
mobile end-to-end data communication
 X.msec-4, Authentication architecture in mobile end-to-end data
communication
• Constructs generic authentication architecture for mobile data
communication between mobile users and application servers
 X.crs, Correlative reacting system in mobile network
• Develops the generic architecture of a correlative reactive system to
protect the mobile terminal against Virus, worms, Trojan-Horses or other
network attacks to both the mobile network and its mobile users
Q.9/17 - Home network security
 X.1111, Framework for security technologies for home network
• Framework of security technologies for home network
• Define security threats and security requirements, security functions,
security function requirements for each entity in the network, and possible
implementation layer
• Approved 2007
 X.homesec-2, Certificate profile for the device in the home
network
• Device certificate profile for the home network
• Develops framework of home network device certificate.
 X.homesec-3, User authentication mechanisms for home
network service
• User authentication mechanisms for home network service.
• Provides the user authentication mechanism in the home network, which
enables various authentication means such as password, certificate,
biometrics and so on.
Q.9/17 - Web Services security
 X.1141, Security Assertion Markup Language (SAML)
• Adoption of OASIS SAML v2.0 into ITU-T Recommendation X.1141
• Define XML-based framework for exchanging security information
• The security information expressed in the form of assertions about
subjects, where a subject is an entity (either human or computer) that
has an identity in some security domain
• Approved 2006
 X.1142, eXtensible Access Control Markup Language (XACML)
• Adoption of OASIS XACML v2.0 into ITU-T Recommendation X.1142
• Provides an XML vocabulary for expressing access control policies and
the syntax of the language and the rules for evaluating policies
• Approved 2006
 X.websec-3, Security architecture for message security in
mobile Web Services
• Develops a guideline on message security architecture and service
scenarios for securing messages for mobile Web Services
Q.9/17 - Secure applications services
 X.sap-1, Guideline on strong password authentication protocols
• Guideline on secure password-based authentication protocol with key
exchange
• Defines a set of requirements for password-based protocol with key
exchange and a selection guideline by setting up criteria that can be used in
choosing an optimum authentication protocol for each application.
 X.sap-2, Secure communication using TTP service
• Secure end-to-end data communication techniques using TTP services
• Specifies secure end-to-end data communication techniques using TTP
services that are services defined in X.842 or other services
 X.p2p-1, Anonymous authentication architecture in community
communication
• Requirements of security for peer-to-peer and peer-to-multi peer
communications
• Investigates threat analysis for P2P and P2MP communication services and
describes security requirements for secure P2P and P2MP communication
services
 X.p2p-2, Security architecture and protocols for peer to peer
network
• Security architecture and protocols for peer to peer network
• Describes the security techniques and protocols in the P2P environment
Q.9/17 – m-RFID security and
Multicast security
 X.rfidsec-1, Privacy protection framework for networked RFID
services
• New work item 2006
• Privacy infringements for networked RFID service environment
• Requirements for privacy protection and privacy protection services
based on a user privacy policy profile
 X.mcastsec-1, Security framework and requirement in the
multicast environment
• New work item 2007
• Requirements of security for multicast communications
• Investigates threat analysis for multicast communications services and
describes security requirements for multicast communications services
ITU-T SG 17 Question 17
Countering Spam by Technical
Means
 Objectives
 Recommendations
Q.17/17 Objectives
 The aim of this Question is to develop a set of
Recommendations on countering spam by
technical means for ITU-T, taking into account
the need for collaboration with ITU-T other Study
Groups and cooperation with other SDOs. The
Question focuses particularly on technical
requirement, frameworks and new technologies
for countering spam. Guidelines on countering
spam by technical means are also studied.
Q.17/17 Set of Recommendations
Requirement on countering spam
(X.csreq) Draft
Technical framework for countering
email spam (X.fcs) Draft
Framework Recommendations:
Technology Recommendations:
Technology Recommendations:
Technical means for countering
spam (X.tcs) TBD
Technical means for countering IP
multimedia spam (X.tcs) TBD
Guideline on countering email
spam (X.gcs) Draft
Overview of countering spam for IP
multimedia application (X.ocsip)
Draft
IP multimedia application area TBD
Other SDOs
Q.17/17 Brief Summaries of draft
Recommendations 1/3
 X.gcs, Guideline on countering email spam
Specifies technical issues on countering e-mail spam. It provides the current
technical solutions and related activities from various SDOs and relevant
organizations on countering e-mail spam. The purpose of the
Recommendation is to provide useful information to the users who want to
find technical solutions on countering e-mail spam and it will be used as a
basis for further development of technical Recommendations on countering
email spam.
 X.ocsip, Overview of countering spam for IP multimedia
applications
Specifie basic concepts, characteristics, and effects of spam in IP
multimedia applications such as IP telephony, video on demand, IPTV,
instant messaging, multimedia conference, etc. It will provide technical
issues, requirements for technical solutions, and various activities on
countering spam for IP multimedia applications. It will provide basis and
guideline for developing further technical solutions on countering spam.
Q.17/17 Brief Summaries of draft
Recommendations 2/3
 X.csreq, Requirement on countering spam
Requirements on countering spam are clarified in this Recommendation.
There are many types of spam, such as email spam, mobile messaging
spam and IP multimedia spam. Various types of spam may have both
common and specific requirements on countering it. For one type of spam,
the requirement in different entities should also be clarified.
 X.fcs, Technical framework for countering email spam
Specifies the technical framework for network structure for countering spam.
Functions inside the framework are defined. It also provides universal rules
of distinguishing spam from other emails and the common methods of
countering email spam.
 X.tcs, Technical means for countering spam
Communication network is evolving, more services are emerging, and
capability of spammers is stronger. Moreover, no single technical means
has perfect performances on countering spam currently. It may be
necessary to propose new technical countermeasures.
Q.17/17 Brief Summaries of draft
Recommendations 3/3
 X.fcsip, Framework of countering IP multimedia spam
Specifies general architecture of countering spam system on IP multimedia
applications such as IP telephony, instant messaging, multimedia
conference, etc. It will provide functional blocks of necessary network
entities to counter spam and their functionalities, and describe interfaces
among the entities. To build secure session against spam attack, User
Terminals and edge service entities such as proxy server or application
servers will be extended to have spam control functions. Shown are
interfaces between these extended peer entities, and interfaces with other
network entities which can involve for countering spam.
 X.tcs-1, Interactive countering spam gateway system
Specifies interactive countering spam gateway system as a technical mean
for countering various types of spam. The gateway system enables spam
notification from receiver’s gateway to sender’s gateway, prevents spam
traffic from going across the network. This specification defines architecture
for the countering spam gateway system, describes basic entities, protocols
and functions, provides mechanisms for spam detection, countering spam
information sharing, and countering spam actions of the gateway systems.
ITU-T SG 4 work on security
SG 4: Security Management
Systems
 To complement the M.3016 series on Security of the
Management Plane which is focused on interfaces, SG 4
has initiated new work on Security Management Systems
(SMS). It is viewed as a key addition to support NGN
Management.
 Based on equivalent work in ATIS TMOC, M.sec-mgmt-sys
is expected to
– Draw on security concepts from X.800 and X.805
– Describe the logical SMS architecture to be realized in one or
more physical systems
– Describe the managed network elements supported by SMS
– Specify the SMS functional requirements
 As with the M.3016 series, a proforma will be provided as a
template for other SDOs and forums to indicate for their
membership what parts of M.sec-mgmt-sys are mandatory
or optional
ITU-T SG 11 work on security
SG 11: Security signaling protocol
draft Recommendation in progress
 Draft Recommendation Q.3201 (formerly Q.NGN-nacf-sec),
EAP-based security signaling protocol architecture for
network attachment
• Describes the security signalling requirements and protocol
architecture for supporting access security aspect of network
attachment in NGN environment. Basic threats and security
requirements for the attachment of NGN access networks are
analyzed, and a model of an EAP-based security signalling
protocol architecture accommodating heterogeneous multi-links
in NGN access environment is presented. Based on it, three
feasible scenarios for authentication signalling in NGN network
attachment control function are developed.
ITU-T SG 13 work on security
 Q.15/13
 All SG 13 Recommendations have a section on
security
Q.15/13 NGN Security
 Y.2701, Security requirements for NGN release 1
 Y.NGN Authentication
 Y.NGN Security Mechanisms, NGN Security
Mechanisms and Procedures
 Y.NGN, Certificate Management
 Y.NGN AAA, The Application of AAA Service for
network access control in UNI and ANI over NGN
 Y. IdMsec, NGN Identity Management Security
Y.2701, Security requirements for
NGN release 1 (pre-published)
 Provides security requirements for Next Generation Networks
(NGNs) and its interfaces (e.g., UNIs, NNIs and ANIs) by
applying ITU-T Recommendation X.805, Security architecture
for systems providing end-to-end communications to ITU-T
Recommendation Y.2201, NGN release 1 requirements and
ITU-T Recommendation Y.2012, Functional requirements and
architecture of the NGN.
 Specifies a trust model that is based on network elements
(physical boxes) that support the functional entities defined in
ITU-T Recommendation Y.2012.
 Specifies requirements, which should be treated as a
minimum set of security requirements. The NGN network
providers are encouraged to take additional measures beyond
those specified in the Recommendations for NGN security.
Y.NGN Authentication 1/2
 Specifies authentication and authorization requirements for
Next Generation Networks (NGNs) based on the ITU-T NGN
release 1 Requirements and NGN Architecture (FRA). This
includes requirements for one-way and mutual authentication
and authorization across the User-to-Network Interface (UNI),
the Network-to-Network Interface (NNI) and the Application-toNetwork Interface (ANI). The scope of this Recommendation
covers:
• Authentication and authorization of users for network access
(e.g., authentication and authorization of an end user device, a
home network gateway, or an enterprise gateway to obtain
access or attachment to the network)
• Service provider authentication and authorization of users for
access to a service/application (e.g., authentication and
authorization of an user, a device or a combined user/device
where the authentication and authorization applies to NGN
service/application access)
Y.NGN Authentication 2/2
• Service provider authentication and authorization of users for
access to a specific service/application (e.g., ETS and TDRspecific authentication and authorization)
• User authentication and authorization of a network (e.g., user
authenticating the identity of the NGN network or of the service
provider)
• User peer-to-peer authentication and authorization (e.g.,
authentication and authorization of the called user (or terminating
entity), authentication and authorization of the originating entity,
or data origin authentication as network functions)
• Mutual network authentication and authorization (e.g.,
authentication and authorization across NNI interface at the
transport level, or service/application level)
• Authentication and authorization of a 3rd party
service/application Provider
• Use of a 3rd party authentication and authorization service
Y.NGN Security Mechanisms,
NGN Security Mechanisms and
Procedures
 Describes specific security mechanisms that should be used
to realize the requirements of Y.2701, Security Requirements
for NGN release 1. It covers the following security subjects:
•
•
•
•
Identification and authentication
Media security
Audit trail, trapping, and logging systems
Transport security for signalling and OAMP (Operations,
Administration, Maintenance, and Provisioning)
• CPE (Customer Premises Equipment) provisioning
Y.NGN, Certificate Management
 Defines procedures for managing the X.509 certificates used
for providing NGN security
 Specifies the use of X.509 certificates for authentication of the
NGN network elements based on policy and business
agreements
Y.NGN AAA, The Application of
AAA Service for network access
control in UNI and ANI over NGN
 Specifies the authentication and authorization procedures for
the NGN. It is based on the principles established in ITU-T
Recommendations Y.2701, Security requirements for NGN
release 1 and Y.2012, Functional requirements and
architecture of the NGN. Y.NGN AAA provides
recommendations on authentication and authorization across
the User-to-Network Interface (UNI) and the Application-toNetwork Interface (ANI)
Y.IdMsec, NGN Identity
Management Security
 Describes the fundamental concepts associated with NGN
Identity Management
 Provides a framework for Identity Management that is based
on the NGN Functional Requirements and Architecture (FRA)
release 2. This IdM framework is applicable to all NGN
entities (e.g., service providers, network providers, network
elements, users and user’s equipment)
 Outlines the threats and risks to Identity Management within
an NGN environment
 Describes trust models for Identity Management within an
NGN environment
 Specifies security objectives and requirements for NGN
Identity Management
Q.15/13’s Major Contributions on
Security to the Work of other
Questions and Study Groups
 Q.15/13 led the development of the Security Considerations
and Requirements section of ITU-T Recommendation Y.2111,
Resource and admission control functions in Next Generation
Networks (Y.2111 was developed by Q.4/13)
 Q.15/13 participated to the development of the ITU-T
Recommendation EAP-Based Security Signaling Protocol
Architecture for Network Attachment (the Recommendation is
being developed by Q.7/11)
ITU-T SG 16 Work on Security
Q.25/16 “Multimedia Security in
Next-Generation Networks”
(NGN-MM-SEC)


Study Group 16 concentrates on multimedia systems.
Q.25/16 focuses on the application-security issues of
MM applications in next generation networks
Standardizes multimedia security
So far Q.25/16 has been standardizing MM-security for
the “1st generation MM/pre-NGN-systems”:


•
•
H.323/H.248-based systems
H.235 sub-series Recommendations provide a framework and a
set of requirements for multimedia systems
Evolution of H.235
Core Security
Framework
Engineering
1st Deployment
Improvement and Additions
Consolidation
Reorganization
H.235V3 H.235V3 H.235V3
Amd1 +
Amd1
+
Annex I Annex H
H.235 Annex G
H.235V4
H.235.0
~
H.235.9
approved
H.235V2
H.235V1
approved
Initial
Draft
H.323V1
1996
Security
Profiles
Annex D
Annex E
started
H.323V2
1997
1998
Annex D
Annex F
H.530
consent
Annex E
approved
H.323V4
1999
2000
H.323V5
2001
2002
2003
H.323V6
2004
2005
2006
H.235 V4 sub-series
Recommendations






Major restructuring of H.235v3 Amd.1 and annexes in
stand-alone sub-series Recommendations
H.235.x sub-series specify scenario-specific MMsecurity procedures as H.235-profiles for H.323
Some new parts added
Some enhancements and extensions
Incorporated corrections
Approved in September 2005
H.323 Security
Recommendations 1/4

H.235.0, Security framework for H-series (H.323 and other
H.245-based) multimedia systems


H.235.1, Baseline Security Profile


Overview of H.235.x sub-series and common procedures with
baseline text
Authentication & integrity for H.225.0 signaling using shared
secrets
H.235.2, Signature Security Profile

Authentication & integrity for H.225.0 signaling using X.509
digital certificates and signatures
H.323 Security
Recommendations 2/4

enhanced

H.235.3, Hybrid Security Profile

H.235.4, Direct and Selective Routed Call Security

extended
Authentication & integrity for H.225.0 signaling using an
optimized combination of X.509 digital certificates, signatures
and shared secret key management;
specification of an optional proxy-based security processor
Key management procedures in corporate and in interdomain
environments to obtain key material for securing H.225.0 call
signaling in GK direct-routed/selective routed scenarios
H.323 Security
Recommendations 3/4

enhanced

modified
H.235.5, Framework for secure authentication in RAS
using weak shared secrets

Secured password (using EKE/SPEKE approach) in
combination with Diffie-Hellman key agreement for stronger
authentication during H.225.0 signaling
H.235.6, Voice encryption profile with native H.235/H.245
key management

Key management and encryption mechanisms for RTP
H.323 Security
Recommendations 4/4

H.235.7, Usage of the MIKEY Key Management Protocol for
the Secure Real Time Transport Protocol (SRTP) within H.235


H.235.8, Key Exchange for SRTP using secure Signalling
Channels

NEW

SRTP keying parameter transport over secured signaling
channels (IPsec, TLS, CMS)
H.235.9, Security Gateway Support for H.323

NEW
Usage of the MIKEY key management for SRTP
Discovery of H.323 Security Gateways
(SG = H.323 NAT/FW ALG) and key management for H.225.0
signaling
Other SG16 MM-SEC Results

H.350.2 (2003), H.350.2 Directory Services Architecture for
H.235


H.530 (Revision 2003), Symmetric security procedures for
H.323 mobility in H.510


An LDAP schema to represent H.235 elements (PWs,
certificates, ID information)
Authentication, access control and key management in
mobile H.323-based corporate networks
Draft H.460.22 (Jan. 2007), Security protocol negotiation

Negotiate security protocols (IPsec or TLS or others) for
H.323 signaling
Q.5/16 (H.300 NAT/FW Traversal)
Results 1/2

H.460.18 (Sep. 2005), Traversal of H.323 signalling across
FWs and NATs


H.323 protocol enhancements and new client/server proxies to
allow H.323 signalling protocols traverse NATs & FWs;
H.323 endpoints can remain unchanged
H.460.19 (Sep. 2005), NAT & FW traversal procedures for
RTP in H.323 systems

Uses multiplexed RTP media mode and symmetric RTP in
conjunction with H.460.18 as a short-term solution
More Q.5/16 Results 2/2

Technical Paper (2005), Requirements for Network Address
Translator and Firewall Traversal of H.323 Multimedia
Systems


Documentation of scenarios and requirements for NAT & FW
traversal in H.323
Technical Paper (2005), Firewall and NAT traversal
Problems in H.323 Systems

An analysis of scenarios and various problems encountered by
H.323 around NAT & FW traversal
New Q.25/16 items
under current study 1/2

Study Anti-DDoS (Denial-of-Service) countermeasures for
(H.323-based) NAT/FW proxy and MM applications

Security for MM-QoS (H.mmqos.security)

MM security aspects of Vision “H.325”
Advanced Multimedia Systems (AMS)

Goal: MM-security for “H.325”,
MM security for Audiovisual on Demand services, Multimedia
Conferencing, Distant learning,..
New Q.25/16 items
under current study

Study Multimedia-Security aspects of Digital Rights
Management (MM-DRM)
•
•
What does MM-DRM mean?
Understand DRM security needs for MM content of MM
applications (e.g. IPTV,…)
Contributions are solicited
Which other groups are active/interested in this area?
•
•

Draft H.proxy


Goal: Specify proxy-aided NAT/firewall traversal mechanism
as a NAT traversal solution for H.323 multimedia systems
Intended for Consent in July 2007
SG 16: Summary

Multimedia systems and applications as
being studied by SG 16 face important
security challenges:
•


MM-security and NAT/FW traversal
Q.25/16 and Q.5/16 are addressing these
issues and have provided various
Recommendations
The work continues in the scope of
NGN-Multimedia Security