IEEE 802.22-2019(Redline)

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IEEE Standard for Information Technology–Telecommunications and information exchange between systems–Wireless Regional Area Networks (WRAN)–Specific requirements–Part 22: Cognitive Wireless RAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications: Policies and Procedures for Operation in the Bands that Allow Spectrum Sharing where the Communications Devices May Opportunistically Operate in the Spectrum of Primary Service (Redline)

Published By	Publication Date	Number of Pages
IEEE	2019	1465

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Description

Revision Standard – Active. This standard specifies the air interface, including the cognitive medium access control layer (MAC) and physical layer (PHY), of point–to–multipoint wireless regional area networks (WRANs) comprised of a professional fixed base station (BS) with fixed and portable user terminals operating in the VHF/UHF TV broadcast bands between 54 MHz to 862 MHz, and potentially in the 1300 MHz to 1750 MHz, and 2700 MHz to 3700 MHz bands provided the regulatory regime allows it. (The PDF of this standard is available at no cost to you compliments of the IEEE GET program at https://ieeexplore.ieee.org/browse/standards/get-program/page/series?id=68)

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std 802.22-2019 Front cover
2	Title page
4	Important Notices and Disclaimers Concerning IEEE Standards Documents
7	Participants
11	Introduction
12	Contents
16	1. Overview 1.1 Scope 1.2 Purpose
17	1.3 Introduction
20	1.4 Word usage
21	2. Normative references
23	3. Definitions
31	4. Abbreviations and acronyms
37	5. System architecture 5.1 Reference architecture
41	5.2 Management reference architecture
45	6. Packet Convergence sublayer 6.1 MAC SDU format 6.2 Classification
47	6.3 IEEE 802.3/Ethernet-specific part
48	6.4 IP specific part
49	7. MAC Common Part sublayer 7.1 General
50	7.2 Addressing and connections
51	7.3 General superframe structure
53	7.4 General frame structure (on PHY-OM1)
56	7.5 General frame structure (on PHY-OM2)
60	7.6 General frame structure for a relay network
67	7.7 Control headers
77	7.8 MAC PDU formats
93	7.9 Management messages
221	7.10 Management of MAC PDUs
241	7.11 ARQ mechanism
254	7.12 Scheduling services
257	7.13 Bandwidth management
263	7.14 PHY support
265	7.15 Contention resolution
267	7.16 Initialization and network association
313	7.17 Ranging
327	7.18 Channel descriptor management
329	7.19 Multicast support
332	7.20 Quality of service
373	7.21 Incumbent protection
383	7.22 Self-coexistence
401	7.23 Quiet periods and sensing
413	7.24 Channel management
418	7.25 Synchronization of the IEEE 802.22 WRAN BSs and IEEE 802.22 A-BSs 7.26 Multi-channel operation on PHY-OM2
438	7.27 Group Resource Allocation on PHY-OM2
442	8. Security mechanism in IEEE 802.22
443	8.1 Security Architecture for the Data/Control and Management Planes
445	8.2 SCM protocol
472	8.3 Key usage
476	8.4 Cryptographic methods
483	8.5 Certificate profile
491	8.6 Security sublayer 2—Security mechanisms for the cognitive functions
504	8.7 CPE privacy
505	9. Operation Mode 1 (PHY-OM1)
506	9.1 Symbol description
509	9.2 Data rates
510	9.3 Functional block diagram applicable to the PHY layer
511	9.4 Superframe and frame structures
519	9.5 CBP packet format
521	9.6 OFDM subcarrier allocation
529	9.7 Channel coding
551	9.8 Constellation mapping and modulation
555	9.9 Control mechanisms
562	9.10 Network synchronization
563	9.11 Frequency Control requirements 9.12 Antenna
568	9.13 RF mask
569	9.14 Receiver requirements
570	9.15 Multiple-input, multiple-output (MIMO)
578	9.16 Using PHY-OM1 in non-TV whitespace frequency bands
579	10. PHY Operation Mode 2 (PHY-OM2) 10.1 Symbol description
586	10.2 Data rates
599	10.3 Functional block diagram applicable to the PHY
600	10.4 Frame structure
604	10.5 CBP packet format 10.6 OFDM subcarrier allocation
613	10.7 Channel coding
620	10.8 Constellation mapping and modulation
624	10.9 Control mechanisms
629	10.10 Network synchronization 10.11 Frequency control requirements 10.12 Antenna 10.13 RF mask
630	10.14 Receiver requirements 10.15 MIMO pilot allocation
632	10.16 Using PHY-OM2 in non-TV Whitespace Frequency Bands
633	11. Cognitive radio capability 11.1 General
634	11.2 Spectrum Manager operation
660	11.3 Spectrum Sensing Automaton
673	11.4 Spectrum sensing
686	11.5 Geolocation
691	11.6 Database service
692	11.7 Operation in non-TV white-space bands
693	12. Configuration
694	13. Parameters and connection management 13.1 Parameters, timers, message IEs
706	13.2 Well-known CIDs
710	13.3 ARQ parameters
711	14. MIB structure 14.1 MIB description
833	14.2 MIB module definitions (ASN.1)
1231	15. Management plane interfaces and procedures 15.1 Primitive format
1232	15.2 Primitive definitions
1337	Annex A (normative) IEEE 802.22 regulatory domains and regulatory classes requirements
1360	Annex B (informative) Multicarrier fine ranging method
1369	Annex C (informative) Sensing
1424	Annex D (informative) Summary of the characteristics of the IEEE 802.22.1 beacon signal and protocols
1443	Annex E (informative) Distributed spectrum sensing and authentication to provide protection against thermal noise
1448	Annex F (informaative) Network security aspects
1451	Annex G (informative) Multiple-input, multiple-output (MIMO)—Receiver side implementation
1461	Annex H (informative) Bibliography
1465	Back cover

Additional information

Standard Title	IEEE Standard for Information Technology–Telecommunications and information exchange between systems–Wireless Regional Area Networks (WRAN)–Specific requirements–Part 22: Cognitive Wireless RAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications: Policies and Procedures for Operation in the Bands that Allow Spectrum Sharing where the Communications Devices May Opportunistically Operate in the Spectrum of Primary Service (Redline)
Published Code	IEEE
Publication Date	2019
Pages Count	1465

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