Home

  Presentation_Bahrain_CSLee_1

NGN Architectural Frameworks Separation Transport (Access and Core) from Services But keeping 3 Planes for basic function: User, Control and Management 4 ITU-D/ITU-T Seminar on Standardization and Development of NGN for Arab Region ITU-D/ITU-T Seminar on Standardization and Development of Next Generation NGN architecture overview (Rec. (...) NGN Architectural Frameworks ITU-D/ITU-T Seminar on Standardization and Development of NGN for Arab Region ITU-D/ITU-T Seminar on Standardization and Development of Next Generation Legacy Terminals Note: Gateway (GW) may exist in either Transport Stratum or End-User Functions. * Legacy Terminals Transport Stratum Service Stratum End-User Functions Application Functions Core transport Functions NGN Terminals Customer Networks O ther N etw orks Application Support Functions and Service Support Functions Core Transport Functions O ther N etw orks Edge Functions Access Transport Functions Service Control Functions Network Access Attachment Functions Network Attachment Control Functions (NACF) Access Network Functions Resource and Admission Control Functions (RACF) User Profile Functions T. (...) ITU-D/ITU-T Seminar on Standardization and Development of NGN for Arab Region ITU-D/ITU-T Seminar on Standardization and Development of Next Generation Functional Architecture of NACF 2.

Score: 753409.6 - https://www.itu.int/ITU-D/tech...esentation_Bahrain_CSLee_1.pdf

  Page 698 - Cloud computing: From paradigm to operation

The functional components for NaaS development support include the development support functional components described in clause 9.2.5.5 of [ITU-T Y.3502]: – Developer environment functional component. Provides the capabilities to support the development of the NaaS service software implementation including the development of the following software components: • Network function software. A network function software can be developed in such a way that features and capability of the network function is provided by elementary network functions; It can also be provided by composition of other developed network functions; • Network services; • Network connectivity applications software (such as for SDN applications). – The development environment functional component includes capabilities for the creation of the configuration metadata for the above software components as well as scripts and related artefacts that are then used by the provider's operational support systems to provision and configure the network function, network service or network connectivity application. – Build management functional component.

Score: 751650.83 - https://www.itu.int/en/publica.../files/basic-html/page698.html

  Output draft of the ad-hoc group meeting on Guidelines and methodologies for developing technical Re

For each cloud service category, the following Recommendations need to be developed: - Y.35xx: Cloud computing – Functional requirements of XaaS o covering Steps 1-5; - Y.35xy: Cloud computing – XaaS functional architecture o covering Step 6. NOTE – Similar methodology has been used for developed big data related Recommendations. 6.2 Methodology used for developed NGN(e) related Recommendations The approach to develop requirements and functional architecture Recommendations related to NGN (evolution) (NGN(e)) needs to be unified to allow future implementation by interested parties. The unified approach needs to be applied for developing requirements and functional architecture Recommendations related to NGN(e).

Score: 748467.04 - https://www.itu.int/en/ITU-T/s...20/13/Documents/guidelines.pdf

  Page 136 - 5G Basics - Core Network Aspects

While operating services, LINP operator functions can also monitor the status of virtual resources by accessing virtual resource monitoring and fault management function. 13 Service deployment functions Service deployment functions, implemented either by a network operator or by a service developer, manage, control, and operate services on LINPs, in collaboration with LINP management functions and service developer functions. When the functions are implemented by a service developer, the functions use the LMI reference point to access LINP management functions as shown in Figure 9. Figure 9 – Functional architecture with service deployment functions supported by a service developer Service deployment functions deploy services, which are programmed by service developer functions, on a LINP.

Score: 748383.7 - https://www.itu.int/en/publica.../files/basic-html/page136.html

  Page 101 - Cloud computing: From paradigm to operation

 Page 101 - Cloud computing: From paradigm to operation           Basic HTML Version Table of Contents View Full Version Page 101 - Cloud computing: From paradigm to operation P. 101 Framework and requirements for cloud computing 1 9.2.5.5 Development support functional components The development support functional components support the cloud computing activities of the cloud service developer. (...) The development support functional components include: • developer environment; • build management; • test management. 9.2.5.5.1 Developer environment The developer environment functional component provides the capabilities to support the development of the service implementation software. (...) The developer environment functional component also supports the creation of configuration metadata relating to the service being developed and also supports the creation of scripts and related artefacts that are used by the provider's operational support systems to provision and configure the service. 9.2.5.5.2 Build management The build management functional component supports the building of a ready-to-deploy software package which can be passed to the cloud service provider for deployment into the cloud service environment.

Score: 741875.5 - https://www.itu.int/en/publica.../files/basic-html/page101.html

  Page 975 - Shaping smarter and more sustainable cities - Striving for sustainable development goals

 Page 975 - Shaping smarter and more sustainable cities - Striving for sustainable development goals           Basic HTML Version Table of Contents View Full Version Page 975 - Shaping smarter and more sustainable cities - Striving for sustainable development goals P. 975 Work area FG‐SSC SDO Document Corresponding Standardiza‐ Future needs delivera‐ working number document title tion gap in this and suggestions ble(s) on this released by area to SG5 related to area this SDO this work area ISO/IEC Information technology – Se‐ Can be refer‐ To develop a 15408 curity techniques – Evaluation enced for de‐ service criteria for IT security‐Part 1: veloping ser‐ model of Introduction and general vice model of e‐government, model; Part 2: Security func‐ e‐government and security will tional requirements; Part 3: be considered Security assurance components ISO/IEC Information technology – Can be To develop 10164 Open Systems Interconnec‐ referenced for information tion – Systems Management: developing management of Object Management Function; information e‐government State Management Function; management for SSC Attributes for representing of relationships; Alarm reporting e‐government function; Event Report Man‐ agement Function; Log control function; Security alarm re‐ porting function; Security au‐ dit trail function; Objects and attributes for access control; Usage metering function for accounting purposes; Metric objects and attributes; Test Management Function; Sum‐ marization Function; Confi‐ dence and diagnostic test cat‐ egories; Scheduling function; Management knowledge man‐ agement function; Change over function; Software man‐ agement function; Manage‐ ment domain and manage‐ ment policy management function; Time management function; Command sequencer for Systems Management; Response time monitoring function 3.2.2 Transport The services and applications of city transport system include but are not limited to:  Traffic information service  Traffic telematics  Information exchange between V2V, V2I, and V2X  Traffic emergency processing There is a Technical Report on ICT infrastructure for SSC which involves facilities of IoT in FG‐SSC [b‐FG‐SSC infrastructure]. There are several TCs working on traffic/transport standardization in ISO, ETSI, SAE, IEEE, IETF, etc. It is suggested to develop a guideline for applications on Intelligent Transport Systems (ITS) in SSC at first.

Score: 740532.8 - https://www.itu.int/en/publica.../files/basic-html/page975.html

  Microsoft Word - summary FCs-Final.doc

With regard to DCF, he suggested that the functional commissions could consider how best to support it and make contributions on development cooperation in the respective substantive areas of work. (...) The chairpersons of the functional commissions were all supportive of the new functions of the Council and saw great value in supporting the Annual Ministerial Review (AMR) and the Development Cooperation Forum (DCF). (...) He also highlighted that the new functions of ECOSOC could help to bring together the respective expertise of the functional commissions and ensure that each of the functional commissions would contribute to the development agenda as a whole.

Score: 740388.4 - https://www.un.org/en/ecosoc/m...6/docs/summary%20FCs-Final.pdf

  Page 140 - 5G Basics - Core Network Aspects

It can also reside between physical resources of a network operator and federation functions of an LINP exchanger when LINP federation is done using the LINP exchanger's federation functions. 18.3 Virtual resource management interface (VMI) A VMI reference point resides between virtual resource management functions of a network operator and LINP operator functions of an LINP operator. 18.4 LINP management interface (LMI) An LMI reference point resides between LINP management functions of a network operator and LINP operator functions of an LINP operator. It can also reside between LINP management functions of a network operator and service deployment functions of a service developer when service deployment functions are implemented by the service developer. 18.5 Service management interface (SMI) An SMI reference point resides between service deployment functions of a network operator and service developer functions of a service developer when service deployment functions are implemented by the network operator. 18.6 Programmer-to-redirector interface (PRI) A PRI reference point resides between a programmer and a redirector of physical node resource. 19 Security considerations To make sure that all the LINPs are logically independent, virtual resources allocated to each LINP have to be isolated from those allocated to other LINPs. (...) End-users that wish to enjoy services have to be authorized before they become able to access the corresponding LINPs. Service developers and LINP operators also have to be authorized before becoming able to execute their functions through appropriate reference points.

Score: 740327.1 - https://www.itu.int/en/publica.../files/basic-html/page140.html

  Page 137 - 5G Basics - Core Network Aspects

For example, they may manage deployment of applications that together constitute a service across multiple administrative domains of the same network operator. 14 Service developer functions Service developer functions enable service developers to design specific services to be deployed on a LINP. The functions combine service components, which have been developed in advance and can be reused. (...) Figure 10 illustrates the gateway functions and their interactions with the LINP management functions.

Score: 738954.6 - https://www.itu.int/en/publica.../files/basic-html/page137.html

  Question 18

What new Recommendations should be developed for the functional architectures of future computing in support of vertical domains? (...) Developing Recommendations for future computing based data handling functional architecture, data exchange and interoperation functional architecture. Developing Recommendations for the functional architectures of future computing in vertical domains.

Score: 737522.17 - https://www.itu.int/en/ITU-T/s...ps/2017-2020/13/Pages/q18.aspx