ANSI IEEE 1903-2011 The Functional Architecture of Next Generation Service Overlay Networks《下一代业务覆盖网络的功能架构标准》.pdf

1、IEEE Std 90003-2008 IEEE Std 90003-2008 IEEE Standard for the Functional Architecture of Next Generation Service Overlay Networks Sponsored by the Standards Committee IEEE 3 Park Avenue New York, NY 10016-5997 USA 7 October 2011 IEEE Communications Society IEEE Std 19032011 IEEE Std 1903-2011 IEEE S

2、tandard for the Functional Architecture of Next Generation Service Overlay Networks Sponsor Standards Committee of the IEEE Communications Society Approved 10 September 2011 IEEE-SA Standards Board Approved 11 January 2013 American National Standards Institute Abstract: A framework of Internet Proto

3、col (IP)-based service overlay networks is described and context-aware e.g., such as required Quality of Service (QoS) level; type of service such as real time versus data; nature of data stream such as I-frame versus B-frame; and type of terminal such as TV monitor versus personal digital assistant

4、, dynamically adaptive (e.g., using locally derived information to discover, organize, and maintain traffic flows in the network within a local area network), and self-organizing networking capabilities (e.g., developing network structures based on the needs of the customers and the capabilities of

5、existing network structures), including advanced routing and forwarding schemes, that are independent of underlying networks, are specified in this Next Generation Service Overlay Network (NGSON) standard. The NGSON architecture provides advanced service- and transport-related functions to support c

6、ontext-aware, dynamically adaptive, and self-organizing networks. This standard specifies a functional architecture for NGSON. The functional architecture consists of a set of functional entities (FEs), their functions, reference points, and information flows to illustrate service interaction and me

7、dia delivery among FEs and external components. NGSON may operate with different underlying networks such as IP Multimedia Subsystem (IMS), next generation network (NGN), peer-to-peer (P2P) overlay, or Web to transmit NGSON signaling messages and/or media among its users and services. Specifications

8、 of underlying networks are outside scope of this standard. Keywords: content delivery, context awareness, dynamic adaptation, IEEE 1903, self-organization, service composition, service discovery and negotiation, service overlay network, service routing The Institute of Electrical and Electronics En

9、gineers, Inc. 3 Park Avenue, New York, NY 10016-5997, USA Copyright 2011 by the Institute of Electrical and Electronics Engineers, Inc. All rights reserved. Published 7 October 2011. Printed in the United States of America. IEEE is a registered trademark in the U.S. Patent +1 978 750 8400. Permissio

10、n to photocopy portions of any individual standard for educational classroom use can also be obtained through the Copyright Clearance Center. iv Copyright 2011 IEEE. All rights reserved. Introduction This introduction is not part of IEEE Std 1903-2011, IEEE Standard for the Functional Architecture o

11、f Next Generation Service Overlay Networks. This standard defines a framework of Internet Protocol (IP)-based service overlay networks that support context-aware, dynamically adaptive, and self-organizing networking capabilities, including advanced routing and forwarding schemes, that are independen

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24、vi Copyright 2011 IEEE. All rights reserved. Participants At the time this standard was submitted to the IEEE-SA Standards Board for approval, the Next Generation Service Overlay Networks (NGSON) Working Group had the following membership: Richard L. Townsend, Chair Wu Bin, Vice Chair Jinkyung Hwang

25、, Vice Chair Jonghwa Yi, Technical Editor Chen Shan, Technical Editor Niranth Amogh Koteeswara Prabhu Arulprakasam Seungjoo Back Hyunjoo Bae Makaya Christian Subir Das Ashutosh Dutta Chang Heng Yokota Hidetoshi Wang Huan Zhu Wen Jie Moonsuk Kang Shingak Kang Eungha Kim Sukyung Kim Byungsun Lee Hoyeo

26、n Lee Hyunwoo Lee Namkyung Lee Seungik Lee Fuchun Joseph Lin Ito Manabu Shi Xiao Min Lai Ming Yoomi Park Chai Xiao Qian Komorita Satoshi Jungmin Seo Yeongil Seo Mehmet Ulema Taiwon Um Li Yan Zhou Yi Hyunkyung Yoo Cui Yuan Yuan The following members of the entity balloting committee voted on this sta

27、ndard. Balloters may have voted for approval, disapproval, or abstention. Broadcom Corporation China Mobile Limited Electronics and Telecommunications Research Institute (ETRI) Huawei Technologies Co. Ltd. KDDI R type of service such as real time versus data; nature of data stream such as I-frame ve

28、rsus B-frame; and type of terminal such as TV monitor versus personal digital assistant, dynamically adaptive (e.g., using locally derived information to discover, organize, and maintain traffic flows in the network within a local area network), and self-organizing networking capabilities (e.g., dev

29、eloping network structures based on the needs of the customers and the capabilities of existing network structures), including advanced routing and forwarding schemes, that are independent of underlying networks. The NGSON architecture provides advanced service and transport-related functions to sup

30、port context-aware, dynamically adaptive, and self-organizing networks. This standard specifies a functional architecture for NGSON. The functional architecture consists of a set of functional entities (FEs), their functions, reference points, and information flows to illustrate service interaction

31、and media delivery among FEs and external components. NGSON may operate with different underlying networks such as IP Multimedia Subsystem (IMS), next generation network (NGN), peer-to-peer (P2P) overlay, or Web to transmit NGSON signaling messages and/or media among its users and services. Specific

32、ations of underlying networks are outside scope of this standard. IEEE Std 1903-2011 IEEE Standard for the Functional Architecture of Next Generation Service Overlay Networks 2 Copyright 2011 IEEE. All rights reserved. 1.2 Purpose The purpose of this standard is to enable network operators, service/

33、content providers, and end users to provide and consume composite services by the deployment of context-aware, dynamically adaptive, and self-organizing networking capabilities. 2. Definitions, acronyms, and abbreviations 2.1 Definitions For the purposes of this document, the following terms and def

34、initions apply. The IEEE Standards Dictionary: Glossary of Terms & Definitions should be consulted for terms not defined in this clause.1abstract service request: A message containing generic information about the properties of the destination of service (e.g., keyword, service class) without a conc

35、rete service address. base service: A service that cannot be further decomposed, and it does not contain other services. composite service: A service that is composed of more than one service that can be a base or composite service. It contains an execution sequence of the composed services. context

36、: Any information that can be used to characterize the situation of an entity. An entity is a person, place, or object that is considered relevant to the interaction between a user and a service, including the user and services themselves. context information: Context that is aggregated and processe

37、d to be used for context-aware functionalities in Next Generation Service Overlay Network (NGSON). context source: An entity that provides context to Next Generation Service Overlay Network (NGSON) such as end-user functions, service, underlying network, and NGSON functional entities (FEs). global I

38、D: An identity (ID) that is provided by Next Generation Service Overlay Network (NGSON) to uniquely represent a user independent of service providers or services. local ID: An identity (ID) that uniquely represents a user in a specific service or service provider. NGSON node: The computer resources

39、(e.g., servers) that can host one or more Next Generation Service Overlay Network (NGSON) functional entities (FEs). peer-to-peer (P2P): A system where entities share their resources to provide a designed service without central co-ordination by any entity of the system. routing information: A set o

40、f information that is used for service routing (e.g., service identity, service address). service: A set of functions provided by software or a system, usually accessible through an application programming interface (API). The service publishes its description information to a service directory and

41、registers to a service registry before providing the service functionality. 1The IEEE Standards Dictionary: Glossary of Terms & Definitions is available at http:/shop.ieee.org/. IEEE Std 1903-2011 IEEE Standard for the Functional Architecture of Next Generation Service Overlay Netowrks 3 Copyright 2

42、011 IEEE. All rights reserved. service class: A set of services that provide the same or similar functions (e.g., map services involving different map service providers belong to one service class). service roaming: A service in a location that is different from the home location where the service w

43、as published. service routing: Procedures of sending a service request to services where this request can be satisfied. 2.2 Acronyms and abbreviations 3G 3rd Generation 3GPP 3rd Generation Partnership Project2AP access point API application programming interface AS Application Server BPEL Business P

44、rocess Execution Language BSS business support system CA-SNS context-aware-social network service CD FE content delivery functional entity CIM FE context information management functional entity CPU central processing unit CRM customer relationship management EIA event integration and adaptation EUF

45、 end-user function FE functional entity FHTML Fluid Hyper Text Markup Language FQL Facebook Query Language FTP File Transfer Protocol GPS Global Positioning System HDTV high definition television HSS Home Subscriber Subsystem HTML Hyper Text Markup Language HTTP Hyper Text Transfer Protocol I-CSCF I

46、nterrogating-Call Session Control Function ID identity IDM FE identity management functional entity IDP identity provider 23GPP is a trademark of ETSI. This information is given for the convenience of users of this standard and does not constitute an endorsement by the IEEE of these products. Equiva

47、lent products may be used if they can be shown to lead to the same results. IEEE Std 1903-2011 IEEE Standard for the Functional Architecture of Next Generation Service Overlay Netowrks 4 Copyright 2011 IEEE. All rights reserved. IM instant messaging IMS IP Multimedia Subsystem IP Internet Protocol I

48、P-CAN IP Connectivity Access Network JSON JavaScript Object Notation ME managed element MMS Multimedia Messaging Service NGN next generation network NGSON Next Generation Service Overlay Network OCS online charging system OM FE operation and management functional entity OSA Open Service Architecture

49、 OSS operation support system P2P peer-to-peer PCC Policy and Charging Control PCRF Policy and Charging Rule Function P-CSCF Proxy-Call Session Control Function PSTN public switched telephone network QoS quality of service RA-NMS Remote Autonomous-Network Management Service REST Representational State Transfer RFID radio frequency identification RSS Really Simple Syndication RSS received signal strength (related to user device) RTSP Real-Time Streaming Protocol SA service agents SC FE service composition functional entity SCIM Service Capability Interaction Manager