1、 IEEE Standard for Information Technology Telecommunications and information exchange between systems Local and metropolitan area networks Specific requirements Part 22.1: Standard to Enhance Harmful Interference Protection for Low-Power Licensed Devices Operating in TV Broadcast Bands SLponsored by
2、 the AN/MAN Standards Committee IEEE 3 Park Avenue New York, NY 10016-5997 USA 1 November 2010IEEE Computer Society IEEE Std 802.22.1-2010IEEE Std 802.22.1-2010IEEE Standard forInformation TechnologyTelecommunications and information exchangebetween systemsLocal and metropolitan area networksSpecifi
3、c requirementsPart 22.1: Standard to Enhance Harmful Interference Protection for Low-Power Licensed Devices Operating in TV Broadcast BandsSponsorLAN/MAN Standards Committeeof theIEEE Computer SocietyApproved 30 September 2010IEEE-SA Standards BoardApproved 31 August 2011American National Standards
4、InstituteAbstract: This standard defines the protocol and data formats for communication devices forminga beaconing network that are used to protect low-power, licensed devices operating in televisionbroadcast bands from harmful interference generated by license-exempt devices, such as WirelessRegio
5、nal Area Networks (WRAN), intended to operate in the same bands. The devices beingprotected are devices licensed as secondary under Title 47, Part 74, Subpart H in the USA andequivalent devices in other regulatory domains.Keywords: ad hoc network, beacons, TV white space, Wireless Regional Area Netw
6、orks, WRANThe Institute of Electrical and Electronics Engineers, Inc.3 Park Avenue, New York, NY 10016-5997, USACopyright 2010 by the Institute of Electrical and Electronics Engineers, Inc.All rights reserved. Published 1 November 2010. Printed in the United States of America.IEEE and 802 are regist
7、ered trademarks in the U.S. Patent +1 978 750 8400. Permission to photocopy portions of any individual standard for educationalclassroom use can also be obtained through the Copyright Clearance Center.iv Copyright 2010 IEEE. All rights reserved.IntroductionThis standard defines the protocol and data
8、 formats for communication devices offering enhanced protectionfor low-power, licensed devices, such as those used in the production and transmission of broadcastprograms (i.e., devices licensed as secondary under Title 47, Part 74, Subpart H in the USA and equivalentdevices in other regulatory doma
9、ins), operating in television broadcast bands. Protection is provided throughthe use of a beacon, which contains information relevant to the licensed device, including its physicallocation and estimated duration of TV channel occupancy. The standard uses the ALOHA medium accessmechanism, and all tra
10、nsmissions are broadcast. The physical layer uses direct sequence spread spectrum (DSSS) with differential quadrature phase-shiftkeying (DQPSK). A synchronization word and countdown mechanism (i.e., time until the next beacontransmission) is transmitted continuously on the I channel, while beacons a
11、nd inter-device communicationsare transmitted on the Q channel. Frequency, modulation rate, and transmit power vary from region toregion and shall adhere to local regulations.Notice to usersLaws and regulationsUsers of these documents should consult all applicable laws and regulations. Compliance wi
12、th theprovisions of this standard does not imply compliance to any applicable regulatory requirements.Implementers of the standard are responsible for observing or referring to the applicable regulatoryrequirements. IEEE does not, by the publication of its standards, intend to urge action that is no
13、t incompliance with applicable laws, and these documents may not be construed as doing so. CopyrightsThis document is copyrighted by the IEEE. It is made available for a wide variety of both public and privateuses. These include both use, by reference, in laws and regulations, and use in private sel
14、f-regulation,standardization, and the promotion of engineering practices and methods. By making this documentavailable for use and adoption by public authorities and private users, the IEEE does not waive any rights incopyright to this document.Updating of IEEE documentsUsers of IEEE standards shoul
15、d be aware that these documents may be superseded at any time by theissuance of new editions or may be amended from time to time through the issuance of amendments,corrigenda, or errata. An official IEEE document at any point in time consists of the current edition of thedocument together with any a
16、mendments, corrigenda, or errata then in effect. In order to determine whethera given document is the current edition and whether it has been amended through the issuance ofamendments, corrigenda, or errata, visit the IEEE Standards Association website at http:/ieeexplore.ieee.org/xpl/standards.jsp,
17、 or contact the IEEE at the address listed previously.This introduction is not part of IEEE Std 802.22.1-2010, IEEE Standard for Information TechnologyTelecommu-nications and information exchange between systemsLocal and metropolitan area networksSpecificrequirementsPart 22.1: Standard to Enhance Pr
18、otection for Low-Power, Licensed Devices Operating inTelevision Broadcast Bands.Copyright 2010 IEEE. All rights reserved. vFor more information about the IEEE Standards Association or the IEEE standards development process,visit the IEEE-SA website at http:/standards.ieee.org.ErrataErrata, if any, f
19、or this and all other standards can be accessed at the following URL: http:/standards.ieee.org/reading/ieee/updates/errata/index.html. Users are encouraged to check this URL forerrata periodically.DownloadsPortions of this standard can be downloaded from the Internet. Materials include PICS tables,
20、data tables,and code. URLs are listed in the text in the appropriate sections. InterpretationsCurrent interpretations can be accessed at the following URL: http:/standards.ieee.org/reading/ieee/interp/index.html.PatentsAttention is called to the possibility that implementation of this standard may r
21、equire use of subject mattercovered by patent rights. By publication of this standard, no position is taken with respect to the existence orvalidity of any patent rights in connection therewith. The IEEE is not responsible for identifying EssentialPatent Claims for which a license may be required, f
22、or conducting inquiries into the legal validity or scopeof Patents Claims or determining whether any licensing terms or conditions provided in connection withsubmission of a Letter of Assurance, if any, or in any licensing agreements are reasonable or non-discriminatory. Users of this standard are e
23、xpressly advised that determination of the validity of any patentrights, and the risk of infringement of such rights, is entirely their own responsibility. Further informationmay be obtained from the IEEE Standards Association.vi Copyright 2010 IEEE. All rights reserved.ParticipantsAt the time this
24、standard was submitted to the IEEE-SA for approval, the IEEE P802.22 Working Group hadthe following voting members:Apurva N. Mody, ChairGerald Chouinard, Vice ChairGreg Buchwald, P802.22.1 ChairMonique Bourgeois Brown, P802.22.1 Editor-in-ChiefMajor contributions were received from the following ind
25、ividuals: Chee Wei Ang Kwok Shum Au John Benko Winston Caldwell Ed Callaway Dave Cavalcanti Soo-Young Chang Chris Clanton Johnny Dixon Charles Einolf Wen Gao Ingo Gaspard Monisha Ghosh Joanna GueninTom Gurley Anh Tuan Hoang Wendong Hu Sung Hyun Hwang Tae-In Hyon Baowei JiJerome J. Kalke Ramon Khalon
26、a Chang-Joo Kim Kihong Kim Gwangzeen Ko Stephen Kuffner Jeong Suk Lee Zhongding Lei Kyutae Lim Jiezhen Lin David Mazzarese Peter Murray Paul Nikolich Moh Nouroozian Juha Pihlaja Jeff Poston Ranga Reddy Ivan Reede Edgar Reihl Jon Rosdahl William Rose Shigenobu Sasaki Cheng Shan Steve Shellhammer Kirk
27、 Skeba Eli Sofer Myung Sun Song Srikathyayani Srikanteswara Carl R. Stevenson Victor Tawil James Tomcik Jungsun Um George Vlantis Kelly Williams Yu-chun Wu Changlong Xu Yonghong Zeng Jianwei Zhang Greg BuchwaldEd CallawaySoo-Young ChangGerald ChouinardChris ClantonCharles EinolfPaul GordayGarret Hea
28、thBaowei JiMingwei JieJerome J. KalkeMark KenkelStephen KuffnerLinjun LvDavid MazzareseTom MessergesZhixue ShiDave SilkK. SivanesanYang TangVictor TawilKe WangKexue WangYu-chun WuZhou WuJianwei ZhangXuesheng ZhuCopyright 2010 IEEE. All rights reserved. viiThe following members of the individual ball
29、oting committee voted on this standard. Balloters may havevoted for approval, disapproval, or abstention. Thomas AlexanderButch Anton Reza Arefi Kwok Shum Au Alexander AwuviriTaehan Bae Youngkyo BaekStephen Berger Gregory Best Harry Bims Gennaro Boggia Achim Brandt Nancy Bravin Monique Bourgeois Bro
30、wnTimothy BrownWilliam Byrd Sean Cai Peter J. CalderonEdgar CallawayJames Carlo Juan Carreon Youngbin ChangClint Chaplin Yung-Mu ChenKichun Cho Hokyu Choi Seung-Hoon ChoiGerald ChouinardKeith Chow jinyong chung Jules Cohen Charles Cook Todor CooklevJose Costa Manoj Das Russell Dietz Thomas DineenMi-
31、Sun Do Carlo Donati Paul Eastman Peter EcclesineRichard EckardCharles Einolf Marc EmmelmannBernard Eydt Shulan Feng Michael FischerC. FitzgeraldDavid Fort Andre FournierRobert Frazier Avraham FreedmanDevon Gayle Theodore GeorgantasJames Gilb Jaganathan GnanaveluMariana GoldhamerRandall GrovesJoanna
32、GueninThomas GurleyHiroshi HaradaWilliam HayesRobert F. Heile Oliver HoffmannSeock Deock HongVictor Hou David Hunter Chan-Soo HwangTae-In Hyon Tetsushi IkegamiAtsushi Ito Raj Jain Jaehyuk Jang Hongkyu JeongSuryong JeongBaowei Ji Bobby Jose Woochul Jung Tal Kaitz Hyunjeong KangNoh-Gyoung KangEfthymio
33、s KarabetsosPiotr Karocki Shuzo Kato Stuart J. Kerry Eunkyung KimGil Kim Sangbum Kim Yongbum KimYoungdoo KimYoungsoo KimPatrick KinneyDongkeon KongBruce KraemerJoseph Kwak Edwin KwonJeremy Landt Insun Lee Jae Min Lee Jeongho Lee Mi Hyun Lee Myung Lee Seong-hee LeeSungjin Lee Tae Hoon Lee Joseph Levy
34、Jan-Ray Liao Arthur Light Chiwoo Lim Hyoung-Kyu LimDaniel Lubar William LumpkinsMark MaloneyDavid MazzareseSteven MethleyApurva N. Mody Ronald MuriasPeter Murray Michael S. NewmanCharles NgethePaul Nikolich John Notor Satoshi Obara Jisung Oh Okundu OmeniChris OsterlohSatoshi OyamaJeongho Park Jungsh
35、in Park William PecheyVenkatesha PrasadMichael ProbascoHenry PtasinskiIvan Reede Benjamin RolfeWilliam Rose Jaeyoung Ryu Randall Safier John Santhoff Shigenobu SasakiBartien SayogoCheng Shan Stephen ShellhammerJaejeong ShimChangyong ShinWonjae Shin Gil Shultz Jaeseung SonJung Je Son Kapil Sood Amjad
36、 SoomroKenneth StanwoodThomas Starai Adrian Stephens Carl StevensonRene Struik Walter StrupplerJun Ichi Takada Masahiro TakagiMichael Johas TeenerDavid Tepen Adam Toner Wen Tong Masahiro UmehiraDmitri VarsanofievPrabodh VarshneyGeorge VlantisStanley Wang Robert Weller Harry WorstellXuyong Wu Oren Yu
37、en Juan Zuniga viii Copyright 2010 IEEE. All rights reserved.When the IEEE-SA Standards Board approved this standard on 30 September 2010, it had the followingmembership:Robert M. Grow, ChairRichard H. Hulett, Vice ChairSteve M. Mills, Past ChairJudith Gorman, Secretary*Member EmeritusAlso included
38、are the following nonvoting IEEE-SA Standards Board liaisons:Satish Aggarwal, NRC RepresentativeRichard DeBlasio, DOE RepresentativeMichael Janezic, NIST RepresentativeCatherine BergerIEEE Project EditorMichael KipnessIEEE Standards Program Manager, Technical Program DevelopmentKaren BartlesonVictor
39、 BermanTed BurseClint ChaplinAndy DrozdAlexander GelmanJim HughesYoung Kyun KimJoseph L. Koepfinger*John KulickDavid J. LawHung LingOleg LogvinovTed OlsenRonald C. PetersenThomas PrevostJon Walter RosdahlSam SciaccaMike SeaveyCurtis SillerDon WrightCopyright 2010 IEEE. All rights reserved. ixContent
40、s1.Overview. 11.1 General. 11.2 Scope 21.3 Purpose. 22.Normative references 33.Definitions 54.Acronyms and abbreviations 75.Functional overview . 95.1 Introduction 95.2 Architecture . 95.3 Superframe structure 95.3.1 Synchronization burst structure . 115.3.2 Beacon frame structure 125.4 Data transfe
41、r model 125.5 Security 145.5.1 Public-key approach 155.5.2 Security considerations 155.5.3 Beaconing device life cycle . 166.PHY specification . 176.1 General requirements and definitions 176.1.1 TV channel/licensed auxiliary service (LAS) channel information 176.1.2 Modulation rates and beacon offs
42、et location for ATSC DTV regions 176.1.3 RF power measurement information . 186.1.4 Receiver sensitivity definitions 186.2 PHY service specifications 186.2.1 PHY data service .196.2.2 PHY management service 206.2.3 PHY enumerations description 276.3 Synchronization burst 276.4 PPDU format 286.5 Inte
43、r-device communication interval (ICI) 286.5.1 Receive (Rx) period . 296.5.2 Acknowledgement/no acknowledgement period (ANP) . 316.6 PHY constants and PIB attributes 326.6.1 PHY constants 326.6.2 PHY PIB attributes 326.7 PHY specifications 336.7.1 Modulation and spreading . 336.7.2 Forward error corr
44、ection (FEC). 356.8 Radio specifications. 376.8.1 Transmit center frequency tolerance 376.8.2 Transmit power 376.8.3 Transmit PSD mask . 376.8.4 Modulation accuracy 386.8.5 Spurious harmonically-related emission suppression 39x Copyright 2010 IEEE. All rights reserved.6.8.6 Receiver sensitivity 396.
45、8.7 Adjacent LAS channel rejection 396.8.8 Receiver maximum input level of compliant beacon signal (blocking) 406.8.9 Link quality indicator (LQI) 407.MAC sublayer specification . 437.1 MAC sublayer service specification 437.1.1 MAC management service. 437.1.2 Enumeration description 517.2 MAC beaco
46、n frame 527.2.1 MSF 1 527.2.2 MSF 2 587.2.3 MSF 3 617.3 MAC constants and MIB attributes . 627.3.1 MAC constants 627.3.2 MIB attributes 627.4 MAC functional description 657.4.1 Transmission protocol 657.4.2 Retry procedure for an SPD. 657.4.3 Frame reception and rejection 667.4.4 Device initializati
47、on procedure 677.4.5 Inter-device communications. 687.4.6 Beaconing 717.4.7 Ceasing transmissions 757.4.8 Setting the internal operating states of the transceiver 777.5 Security suite specifications. 797.5.1 Notation and representation . 797.5.2 Representation of time . 797.5.3 Elliptic-curve buildi
48、ng blocks 807.5.4 Signature scheme .817.5.5 Certificate scheme 837.6 Message sequence charts (MSC) illustrating MAC-PHY interaction . 85Annex A (informative) Example block decoding method.93A.1 Introduction 93A.2 Method details 93A.3 Example . 94Annex B (informative) Recommended deployment in the Un
49、ited States . 97B.1 Introduction 97B.2 Physical positioning of the beacon relative to other Part 74 wireless systems 97B.3 Additional beacon antenna deployment considerations. 101B.4 Recommended wireless system frequencies of operation . 102Annex C (informative) Receiver sensitivity and adjacent channel protection justification 103C.1 Introduction 103C.2 Analysis . 104C.2.1 Link 1 Rx signal. 104C.2.2 Microphone interfering signal . 105Copyright 2010 IEEE. All rights reserved. xiAnnex D (informative) Next higher layer (NHL) operation 107D.1 Introduction 107D.2 N
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