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IEEE 802.22b 2015

IEEE 802.22b 2015

$96.42

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 TV Bands – Amendment 2: Enhancement for Broadband Services and Monitoring Applications

Published By Publication Date Number of Pages
IEEE 2015 299
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Amendment Standard – Active. Alternate physical layer (PHY) and necessary medium access control layer (MAC) enhancements to IEEE Std 802.22-2011 are specified in this amendment for operation in very high frequency/ultra-high frequency (VHF/UHF) television broadcast bands between 54 MHz and 862 MHz to support enhanced broadband services and monitoring applications. The amendment supports aggregate data rates greater than the maximum data rate supported by the IEEE Std 802.22-2011. This amendment defines new classes of IEEE 802.22(TM) devices to address these applications and supports more than 512 devices in a network. This amendment also specifies techniques to enhance communications among the devices and makes necessary amendments to the cognitive, security, and parameters and connection management clauses. This amendment supports mechanisms to enable coexistence with other IEEE 802(R) systems in the same band.(The PDF of this standard is available at no cost compliments of the GETIEEE802 program http://standards.ieee.org/about/get/802/802.22.html)

PDF Catalog

PDF Pages PDF Title
1 IEEE Std 802.22b-2015 Front Cover
3 Title page
5 Important Notices and Disclaimers Concerning IEEE Standards Documents
8 Participants
10 Introduction
11 Contents
22 1. Overview
1.3 Reference application
3. Definitions
24 4. Abbreviations and acronyms
25 7. MAC Common Part sublayer
7.1 General
26 7.2 Addressing and connections
27 7.3 General superframe structure
7.4 General frame structure (on PHY-OM1)
28 7.4a General frame structure (on PHY-OM2)
7.4a.1 General frame structure for normal mode
7.4a.2 General frame structure for self-coexistence mode
7.4a.3 Frame format
32 7.4b General frame structure for a relay network
7.4b.1 General frame structure for a centralized scheduling mode
33 7.4b.2 General frame structure for a distributed scheduling mode
35 7.4b.3 Detail of zones
38 7.5 Control header
7.5.1 Superframe Control header
7.5.2 Frame Control header
39 7.5.2a Frame control header for PHY-OM2
43 7.5.2b Distributed relay zone (DRZ) Frame Control header (DRZ-FCH)
44 7.6 MAC PDU formats
7.6.1 MAC headers
50 7.7 Management messages
7.7.1 Downstream Channel Descriptor (DCD)
54 7.7.2 Downstream MAP (DS-MAP)
62 7.7.3 Upstream Channel Descriptor (UCD)
65 7.7.4 Upstream MAP (US-MAP)
80 7.7.7 REG-REQ/RSP
82 7.7.11 CPE Basic Capability Request/Response (CBC-REQ/RSP)
84 7.7.24 Confirmation codes
7.7.25 Local Cell Update messages
86 7.7.26 Container message
87 7.7.27 Downstream Transmit Test (DTT) messages
89 7.7.28 Relay-Schedule (Relay-SCHE) message
90 7.7.29 Channel Allocation Manager management messages
92 7.7.30 Group Resource Allocation management messages
95 7.7.31 Ranging Report (RNG-RPT) message
7.8 Management of MAC PDUs
7.8.4 Packing
96 7.8.7 MAC PDU construction for relay
107 7.8.8 MAC PDU transmission for relay
109 7.9 ARQ mechanism
7.9.6 ARQ operation
111 7.10 Scheduling services
7.10.2 Upstream request/grant scheduling
112 7.11 Bandwidth management
7.11.1 Bandwidth Requests
113 7.11.2 Grants
114 7.11.3 Polling
116 7.13 Contention resolution
7.13.1 Transmission opportunities
117 7.14 Initialization and network association
7.14.3 A-BS initialization
120 7.14.4 CPE initialization for relay
141 7.15 Ranging
7.15.1 DS management
146 7.15.2 US management
151 7.16 Channel descriptor management
7.18 QoS
7.18.9 Service Flow Management
154 7.19 Incumbent protection
7.19.2 Measurements management
155 7.19.4 Measurement report and notification
156 7.20 Self-coexistence
7.20.1 Coexistence Beacon Protocol (CBP)
157 7.20.4 Self-coexistence for a relay network
160 7.21 Quiet periods and sensing
7.21.2 Synchronization of overlapping quiet periods
161 7.21.4 Quiet periods and sensing for a relay network
162 7.22 Channel management
7.22.3 Channel management on a relay network
165 7.23 Synchronization of the IEEE 802.22 base stations and IEEE 802.22b base stations
7.24 Multi-channel operation
7.24.1 General
167 7.24.2 Channel allocation manager
182 7.24.3 Multi-channel operation at A-BS
183 7.24.4 Multi-channel operation at A-CPE
184 7.25 Group Resource Allocation
186 8. Security mechanism in IEEE 802.22
187 8.1 Security Architecture for the Data/Control and Management Planes
8.1.2 Key management and authentication overview
8.2 SCM protocol
8.2.2 Authentication state machine
188 8.2.3 TEK exchange overview
8.3 Key usage
8.3.1 BS key usage
189 8.4 Cryptographic methods
8.4.1 Selection of Data Encryption and Authentication methods
190 8.4.2 Data Encryption and Authentication with AES GCM
196 8.6 Security sublayer 2—Security mechanisms for the cognitive functions
8.6.2 CBP Authentication mechanisms
198 9. PHY Operation Mode 1 (PHY-OM1)
199 9.2 Data rates
212 9.4 Superframe and frame structure
9.4.1 Preamble
214 9.7 Channel coding
9.7.2 Forward Error Correction (FEC)
220 9.8 Constellation mapping and modulation
9.8.1 Data modulation
223 9.9 Control mechanisms
9.9.4 Power control
225 9.14 Receiver requirements
9.14.1 Receiver minimum sensitivity
9.15 Multiple-input, multiple-output (MIMO)
9.15.1 Overview
9.15.2 MIMO pilot allocation
227 9.15.3 Space time coding (STC)
232 9.15.4 Spatial multiplexing
233 9a. PHY Operation Mode 2 (PHY-OM2)
234 9a.1 Symbol description
9a.1.1 OFDM symbol mathematical representation
235 9a.1.2 Symbol parameters
237 9a.1.3 OFDMA basic terms definition
241 9a.2 Data rates
253 9a.3 Functional block diagram applicable to the PHY
254 9a.4 Frame structure
255 9a.4.1 Preamble
257 9a.4.2 Control header and MAP definitions
258 9a.5 CBP packet format
9a.6 OFDM subcarrier allocation
9a.6.1 Pilot pattern
259 9a.6.2 DS subcarrier allocation
262 9a.6.3 Upstream subcarrier allocation
266 9a.6.4 Bit interleaving
9a.7 Channel coding
9a.7.1 Data scrambling
9a.7.2 Forward error correction (FEC)
269 9a.8 Constellation mapping and modulation
9a.8.1 Data modulation
270 9a.8.2 Pilot modulation
9a.9 Control mechanisms
9a.9.1 DS synchronization
9a.9.2 US synchronization
9a.9.3 Opportunistic US bursts
274 9a.9.4 Power control
275 9a.10 Network synchronization
9a.11 Frequency control requirements
9a.12 Antenna
9a.13 RF mask
9a.14 Receiver requirements
276 9a.15 MIMO pilot allocation
9a.15.1 Overview
9a.15.2 Pilot allocation for two antennas
277 9a.15.3 Pilot allocation for four antennas
9a.15.4 Space time coding (STC)
10. Cognitive radio capability
10.1 General
278 12. Parameters and connection management
12.1 Parameters, timers, message IEs
12.1.1 MAC (dynamic service flow, multicast, ARQ, capability, and bandwidth management)
12.1.2 PHY (initialization, operation, and DS/US synchronization)
283 14. Management plane interfaces and procedures
14.2 Primitive definitions
14.2.1 Management SAP (M-SAP)
288 Annex G (informative) Bibliography
289 Annex H (informative) Multiple-input, multiple-output (MIMO)—Receiver side implementation
299 Back Cover

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