ANSI IEEE 1905 1-2013 A Convergent Digital Home Network for Heterogeneous Technologies.pdf

1、 IEEE Standard for a ConvergentDigital Home Network for Heterogeneous Technologies Sponsored by the Power Line Communications Standards Committee IEEE 3 Park Avenue New York, NY 10016-5997 USA 12 April 2013 IEEE Communications SocietyIEEE Std 1905.1-2013IEEE Std 1905.1TM-2013 IEEE Standard for a Con

2、vergent Digital Home Network for Heterogeneous Technologies Sponsor Power Line Communications Standards Committee of the IEEE Communications Society Approved 6 March 2013 IEEE-SA Standards Board Recognized as an American National StandardAbstract: An abstraction layer for multiple home networking te

3、chnologies that provides a common interface to widely deployed home networking technologies is defined in this standard: IEEE 1901 over power lines, IEEE 802.11 for wireless, Ethernet over twisted pair cable, and MoCA 1.1 over coax. Connectivity selection for transmission of packets arriving from an

4、y interface or application is supported by the 1905.1 abstraction layer. Modification to the underlying home networking technologies is not required by the 1905.1 layer, and hence it does not change the behavior or implementation of existing home networking technologies. Introduced by the 1905.1 spe

5、cification is a layer between layers 2 and 3 that abstracts the individual details of each interface, aggregates available bandwidth, and facilitates seamless integration. The 1905.1 also facilitates end-to-end quality of service (QoS) while simplifying the introduction of new devices to the network

6、, establishing secure connections, extending network coverage, and facilitating advanced network management features including discovery, path selection, autoconfiguration, and quality of service (QoS) negotiation. Keywords: abstraction layer, access point (AP) autoconfiguration, data models, fragme

7、ntation and reassembly, IEEE 802.1 bridge discovery, IEEE 802.11TM, IEEE 1901TM, IEEE 1905.1TM, MoCA, pairwise master key, push button, registration, security, topology discovery protocol, wireless fidelity (Wi-Fi) The Institute of Electrical and Electronics Engineers, Inc. 3 Park Avenue, New York,

8、NY 10016-5997, USA Copyright 2013 by The Institute of Electrical and Electronics Engineers, Inc. All rights reserved. Published 12 April 2013. Printed in the United States of America. IEEE and 802 are registered trademarks in the U.S. Patent +1 978 750 8400. Permission to photocopy portions of any i

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21、 expressly advised that determination of the validity of any patent rights, and the risk of infringement of such rights, is entirely their own responsibility. Further information may be obtained from the IEEE Standards Association. vi Copyright 2013 IEEE. All rights reserved. Participants At the tim

22、e this standard was submitted to the IEEE-SA Standards Board for approval, the P1905.1 Working Group had the following membership: Paul Houz, Chair Purva Rajkotia, Vice Chair C. Scott Willy, Editor The Working Group gratefully acknowledges the contributions of the following entities and participants

23、. Without their assistance and dedication, this standard would not have been completed. The following entities submitted technical contributions or commented on the standard at various stages of the project development. Broadcom Celeno Cisco Cortina Systems devolo AG EchoStar Entropic Communications

24、 Ericsson Inc. France Telecom GE HGI HomeGrid Forum HD-PLC Alliance HomePlug Powerline Alliance HomePNA Alliance Ikanos Communications, Inc. Intel Corporation Lantiq Marvell Semiconductor, Inc. MediaTek MoCA MStar NTT Advanced Technology Corp. Panasonic Corporation Qualcomm / Atheros Ralink SAGEMCOM

25、 SAS Siemens Corporation Sigma Designs Sony Corporation STMicroelectronics Toshiba Corporation Verizon Vixs Systems, Inc. ZTE Corporation The following individuals submitted technical contributions or commented on the standard at various stages of the project development. Sundeep Ahluwalia Jim Allen

26、 Avner Aloush Todd Antes Mitch Aramaki Gilles Barberi Michael Bahr Frederic Bard David Barr Duncan Bees Ivar Beljaars Edith Berard Peter Caldera William Carney Regis Cattenoz Bruce Chang Joseph Choghi Philippe Christin Patrick Clement Etan Cohen Olga Cordero-Brana James Doyle Jeff Drake John Egan Ti

27、m Farnham Jean-Philippe Faure Norm Finn Randy Gellens Navid Ghazisaidi Jean Grappy Duncan Ho Paul Houz David Hunter Aref Iskandar Rajeev Jain Gina Jacalne Georgios Kalogridis William Keasler Patrick Keliher Joon Bae Kim Neal King Philippe Klein Avi Kliger Michael Koch Yoshihiro Kondo Gary Langille R

28、ick Li Qiongwen (Jodie) Liang Oleg Logvinov Rahul Malik Jianli Mao Marcos MartinezEric Masera Anil Mengi Cimarron Mittelsteadt Parag Mogre Bibha Mohanty Richard Nesin Lup Ng Jordan Nicol Barry OMahony Txema Ogara Stephen Palm Andrea Peccicciono Martin Renard Purva Rajkotia Rob Ranck Antonio Salas Ro

29、ger Samy Vincenzo Scarpa Sid Schrum Andreas Schwager Kevin Sievert Nir Shapira Lydi Smaini Matt Theall Rami Verbin Chao-Chun Wang James Wang Lin Wang C. Scott Willy Michael Wilson James Yee Chiawei Yen Abdel Younes Boshan Zhang Dezhi (James) Zhang Junjian Zhanvii Copyright 2013 IEEE. All rights rese

30、rved. The following members of the entity balloting committee voted on this standard. Balloters may have voted for approval, disapproval, or abstention. AlcatelLucent Technologies Broadcom Cortina Systems devolo AG Duke Energy Corporation Entropic Communications FiberHome Technologies Group France T

31、elecom Freescale Semiconductor, Inc. HD-PLC Alliance HomePlug Powerline Alliance HomePNA Alliance Intel Corporation Marvell Semiconductor, Inc. Maxim Integrated Products Mitsubishi Electric Corporation Motorola Mobility MoCA Nokia NXP Semiconductors Panasonic Corporation Power Plus Communications AG

32、 Qualcomm Incorporated SAGEMCOM SAS Schneider Electric Siemens Corporation Sony Corporation STMicroelectronics Toshiba Corporation Vixs Systems, Inc. ZTE Corporation When the IEEE-SA Standards Board approved this standard on 6 March 2013, it had the following membership: John Kulick, Chair David J.

33、Law, Vice Chair Richard H. Hulett, Past Chair Konstantinos Karachalios, Secretary Masayuki Ariyoshi Peter Balma Farooq Bari Ted Burse Wael William Diab Stephen Dukes Jean-Philippe Faure Alexander Gelman Mark Halpin Gary Hoffman Paul Houz Jim Hughes Michael Janezic Joseph L. Koepfinger* Oleg Logvinov

34、 Ron Petersen Gary Robinson Jon Walter Rosdahl Adrian Stephens Peter Sutherland Yatin Trivedi Phil Winston Yu Yuan *Member Emeritus Also included are the following nonvoting IEEE-SA Standards Board liaisons: Richard DeBlasio, DOE Representative Michael Janezic, NIST Representative Don Messina IEEE S

35、tandards Program Manager, Document Development Soo H. Kim IEEE Client Services Manager, Professional Services viii Copyright 2013 IEEE. All rights reserved. Introduction This introduction is not part of IEEE Std 1905.1-2013, IEEE Standard for a Convergent Digital Home Network for Heterogeneous Techn

36、ologies. Among the home networking technologies, wireless networks offer mobility and wired technologies offer extensive bandwidth or outlet ubiquity for data communications. Wired and wireless technologies complement each other to provide full home coverage. To address the wide variety of applicati

37、ons, regions, environments, and topologies, multiple connectivity technologies are needed. Each of these different technologies has a unique interface to higher layer entities, thus, leading to software and hardware design complexities in multiconnectivity devices. This complexity must be reduced an

38、d new features/functions must be enabled that can take advantage of the multiple paths available between devices. IEEE Std 1905.1 addresses these requirement by defining an abstraction layer for multiple home networking technologies that provides a common interface to widely deployed home networking

39、 technologies: IEEE Std 1901TM-2010 over power lines, IEEE Std 802.11TM-2012 for wireless, Ethernet over twisted pair cable, and MoCA1.1 over coax.a,baInformation on references can be found in Clause 2. bMoCA is a registered trademark in the U.S. Patent NFCForum-TS-ConnectionHandover_1_2.doc; 2010-0

40、7-07.3FIPS PUB 180-2:2002, Secure Hash Signature Standard (SHS) (including the change notice dated February 25, 2004, concerning truncation).4IEEE P802.11ac/D3.0 (June 2012), Enhancements for Very High Throughput for Operation in Bands below 6 GHz.5IEEE Std 1901TM-2010, IEEE Standard for Broadband o

41、ver Power Line Networks: Medium Access Control and Physical Layer Specifications.6,7IEEE Std 802TM-2001, IEEE Standard for Local and Metropolitan Area Networks: Overview and Architecture. IEEE Std 802.1ABTM-2009, IEEE Standard for Local and Metropolitan Area NetworksStation and Media Access Control

42、Connectivity Discovery. IEEE Std 802.1DTM-2004, IEEE Standard for Local and Metropolitan Area Networks: Media Access Control (MAC) Bridges. 3NFC Forum publications are available from the NFC Forum Technical Specifications (http:/www.nfc-forum.org/). 4FIPS publications are available from the National

43、 Technical Information Service (http:/www.ntis.gov/). 5This IEEE standards project was not approved by the IEEE-SA Standards Board at the time this publication went to press. For information about obtaining a draft, contact the IEEE. 6IEEE publications are available from The Institute of Electrical

44、and Electronics Engineers (http:/standards.ieee.org/). 7The IEEE standards or products referred to in this clause are trademarks of The Institute of Electrical and Electronics Engineers, Inc. IEEE Std 1905.1-2013 IEEE Standard for a Convergent Digital Home Network for Heterogeneous Technologies 3 Co

45、pyright 2013 IEEE. All rights reserved. IEEE Std 802.1QTM-2011, IEEE Standard for Local and Metropolitan Area NetworksMedia Access Control (MAC) Bridges and Virtual Bridged Local Area Networks. IEEE Std 802.3TM-2008, IEEE Standard for Information Technology-Specific RequirementsPart 3: Carrier Sense

46、 Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications. IEEE Std 802.11TM-2012, IEEE Standard for Information TechnologyTelecommunications and Information Exchange between SystemsLocal and Metropolitan Area NetworksSpecific RequirementsPart 11: Wireless L

47、AN Medium Access Control (MAC) and Physical Layer (PHY) Specifications. IEEE Std 802.11adTM-2012, IEEE Standard for Information technology-Telecommunications and Information Exchange Between SystemsLocal and Metropolitan Area NetworksSpecific Requirements-Part 11: Wireless LAN Medium Access Control

48、(MAC) and Physical Layer (PHY) Specifications Amendment 3: Enhancements for Very High Throughput in the 60 GHz Band. IETF RFC-6234, U.S. Secure Hash Algorithms (SHA and SHA-based HMAC and HKDF).8MoCAMAC/PHY Specification v1.1, MoCA-M/P-SPEC-V1.1-06272011, Multimedia over Coax Alliance (MoCA).9PKCS #

49、5 V2.0-1999, Password-Based Cryptography Specification.10Simple Object Access Protocol (SOAP) 1.1.11TR-069 Amendment 4, July 2011, CPE WAN Management Protocol, Broadband Forum.12TR-106 Amendment 6, July 2011, Data Model Template for TR-069-Enabled Devices, Broadband Forum. TR-181 Issue: 2, May 2010, Device Data Model for TR-069, Broadband Forum Technical Report. US-ASCII, ANSI_X3.4-1968, Coded Character Sets7-Bit American National Code for Information Exchange.13Wi-FiSimple Configuration (WSC), Wi-Fi Simple Configuration Technical Specification Version