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IEEE 802.16e-2005

IEEE 802.16e-2005

$252.96

IEEE Standard for Local and Metropolitan Area Networks – Part 16: Air Interface for Fixed and Mobile Broadband Wireless Access Systems – Amendment for Physical and Medium Access Control Layers for Combined Fixed and Mobile Operation in Licensed Bands

Published By Publication Date Number of Pages
IEEE 2005 864
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Amendment Standard – Superseded. This document provides enhancements to IEEE Std 802.16-2004 to support subscriber stations moving at vehicular speeds and thereby specifies a system for combined fixed and mobile broadband wireless access. Functions to support higher layer handoff between base stations or sectors are specified. Operation is limited to licensed bands suitable for fixed/mobile use below 6 GHz. Fixed 802.16-2004 subscriber capabilities shall not be compromised. In addition to mobility enhancements, this document contains substantive corrections to IEEE 802.16-2004 regarding fixed operation.

PDF Catalog

PDF Pages PDF Title
1 IEEE Standard for Local and Metropolitan Area Networks–Part 16, Amendment 2 and Corrigendum 1
3 Title page
6 Introduction
Notice to users
7 Participants
13 CONTENTS
31 List of Figures
35 List of Tables
43 1. Overview
1.1 Scope
44 1.2 Purpose
1.3 Frequency bands
1.3.3 License-exempt frequencies below 11 GHz (primarily 5-6 GHz)
45 1.3.4 Air interface nomenclature and PHY compliance
1.4 Reference model
1.4.1 Handover process
47 2. References
49 3. Definitions
53 4. Abbreviations and acronyms
55 5. Service-specific CS
5.1 ATM CS
5.1.2 Data/Control plane
5.1.2.2 Classification
5.1.2.2.1 VP-switched mode
5.1.2.2.2 VC-switched mode
5.2 Packet CS
5.2.2 Classification
5.2.3 PHS
5.2.3.1 PHS operation
56 5.2.3.2 PHS signaling
5.2.4 IEEE Std 802.3/Ethernet-specific part
5.2.4.1 IEEE Std 802.3/Ethernet CS PDU format
5.2.4.2 IEEE Std 802.3/Ethernet CS classifiers
57 5.2.5 IEEE Std 802.1Q-19982003 virtual local area network (VLAN) specific part
5.2.5.1 IEEE Std 802.1Q-19982003 VLAN CS PDU format
5.2.5.2 IEEE Std 802.1Q-19982003 CS classifiers
5.2.6 IP specific part
5.2.6.1 IP CS PDU format
5.2.7 IP-Header-compression-specific part
58 5.2.7.1 Compressed-IP-Header CS PDU
5.2.7.2 Compressed-IP-Header classifiers
59 6. MAC common part sublayer
6.1 PMP
6.3 Data/Control plane
6.3.1 Addressing and connections
6.3.1.1 PMP
60 6.3.2 MAC PDU formats
6.3.2.1 MAC header formats
61 6.3.2.1.1 Generic MAC header
63 6.3.2.1.2 MAC header without payload
6.3.2.1.2.1 MAC signaling header type I
71 6.3.2.1.2.2 MAC signaling header type II
75 6.3.2.1.2.2.1.1 MIMO Channel Feedback header
78 6.3.2.2 MAC subheaders and special payloads
79 6.3.2.2.2 Grant Management subheader
80 6.3.2.2.3 Packing subheader
6.3.2.2.4 ARQ feedback
6.3.2.2.6 FAST-FEEDBACK allocation subheader
6.3.2.2.7 Extended subheader format
83 6.3.2.2.7.1 SDU SN extended subheader
6.3.2.2.7.2 DL Sleep control extended subheader
6.3.2.2.7.3 Feedback request extended subheader
84 6.3.2.2.7.4 MIMO mode Feedback extended subheader
85 6.3.2.2.7.5 UL Tx Power Report extended subheader
6.3.2.2.7.6 Mini-Feedback extended subheader
6.3.2.2.7.7 SN request extended subheader
86 6.3.2.2.7.8 PDU SN extended subheader
6.3.2.3 MAC Mmanagement messages
89 6.3.2.3.1 Downlink Channel Descriptor (DCD) message
6.3.2.3.2 Downlink map (DL-MAP) message
91 6.3.2.3.4 Uplink map (UL-MAP) message
92 6.3.2.3.5 Ranging request (RNG-REQ) message
95 6.3.2.3.6 Ranging Response (RNG-RSP) message
97 6.3.2.3.7 Registration request (REG-REQ) message
98 6.3.2.3.8 Registration Response (REG-RSP) message
100 6.3.2.3.9 Privacy key management (PKM) messages (PKM-REQ/PKM-RSP)
103 6.3.2.3.9.2 Authorization Request (Auth Request) message
6.3.2.3.9.11 PKMv2 RSA-Request message
6.3.2.3.9.12 PKMv2 RSA-Reply message
104 6.3.2.3.9.13 PKMv2 RSA-Reject message
105 6.3.2.3.9.14 PKMv2 RSA-Acknowledgement message
6.3.2.3.9.15 PKMv2 EAP Start message
106 6.3.2.3.9.16 PKMv2 EAP Transfer message
6.3.2.3.9.17 PKMv2 Authenticated EAP Transfer messages
107 6.3.2.3.9.18 PKMv2 SA-TEK-Challenge message
6.3.2.3.9.19 PKMv2 SA-TEK-Request message
108 6.3.2.3.9.20 PKMv2 SA-TEK-Response message
109 6.3.2.3.9.21 PKMv2 Key-Request message
110 6.3.2.3.9.22 PKMv2 Key-Reply message
6.3.2.3.9.23 PKMv2 Key-Reject message
111 6.3.2.3.9.24 PKMv2 SA-Addition message
112 6.3.2.3.9.25 PKMv2 TEK-Invalid message
6.3.2.3.9.26 PKMv2 Group-Key-Update-Command message
113 6.3.2.3.9.27 PKMv2 EAP Complete
114 6.3.2.3.9.28 PKMv2 Authenticated EAP Start
6.3.2.3.10 DSA-REQ message
6.3.2.3.11 DSA-RSP message
115 6.3.2.3.11.1 SS-Initiated DSA
6.3.2.3.11.2 BS-Initiated DSA
6.3.2.3.12 DSA-ACK message
116 6.3.2.3.13 DSC Request (DSC-REQ) message
6.3.2.3.14 DSC Response (DSC-RSP) message
6.3.2.3.15 DSC Acknowledge (DSC-ACK) message
6.3.2.3.16 DSD-REQ message
117 6.3.2.3.17 DSD-RSP message
6.3.2.3.20 Downlink Burst Profile Change Request (DBPC-REQ) message
6.3.2.3.21 Downlink Burst Profile Change Response (DBPC-RSP) message
6.3.2.3.22 Reset Command (RES-CMD) message
6.3.2.3.23 SS basic capability request (SBC-REQ) message
118 6.3.2.3.24 SS basic capability response (SBC-RSP) message
6.3.2.3.26 De/Re-register command (DREG-CMD) message
120 6.3.2.3.28 Config File TFTP Complete (TFTP-CPLT) message
6.3.2.3.32 ARQ Reset message
121 6.3.2.3.33 Channel measurement Report Request/Response (REP-REQ/RSP)
122 6.3.2.3.34 Fast Power Control (FPC) message
6.3.2.3.41 AAS Beam Select message
6.3.2.3.42 SS De-registration Request (DREG-REQ) message
124 6.3.2.3.43 H-ARQ HARQ MAP message
6.3.2.3.43.1 H-ARQ HARQ message format
6.3.2.3.43.2 Format configuration
126 6.3.2.3.43.3 Reduced CID
127 6.3.2.3.43.4 H-ARQ HARQ control IE
6.3.2.3.43.5 CQICH Control IE
129 6.3.2.3.43.6 Compact_DL-MAP IE
144 6.3.2.3.43.7 UL-MAP_IE
154 6.3.2.3.44 Sleep Request message (MOB_SLP-REQ)
156 6.3.2.3.45 Sleep Response message (MOB_SLP-RSP)
160 6.3.2.3.46 Traffic Indication message (MOB_TRF-IND)
162 6.3.2.3.47 Neighbor Advertisement (MOB_NBR-ADV) message
168 6.3.2.3.48 Scanning Interval Allocation Request (MOB_SCN-REQ) message
170 6.3.2.3.49 Scanning Interval Allocation Response (MOB_SCN-RSP) message
173 6.3.2.3.50 Scanning Result Report (MOB_SCN-REP) message
177 6.3.2.3.51 Association Result Report (MOB_ASC-REP) message
179 6.3.2.3.52 BS HO Request (MOB_BSHO-REQ) message
187 6.3.2.3.53 MS HO Request (MOB_MSHO-REQ) message
191 6.3.2.3.54 BS HO Response (MOB_BSHO-RSP) message
199 6.3.2.3.55 HO Indication (MOB_HO-IND) message
202 6.3.2.3.56 BS Broadcast Paging (MOB_PAG-ADV) message
203 6.3.2.3.57 Multicast Broadcast Service Map (MBS_MAP) message
208 6.3.2.3.58 Power control mode change request (PMC_REQ) message
209 6.3.2.3.59 Power control mode change response (PMC_RSP) message
211 6.3.2.3.60 OFDMA Sub downlink/uplink map (SUB-DL-UL-MAP) message
214 6.3.2.3.61 MIMO precoding setup/tear-down
6.3.3 Construction and transmission of MAC PDUs
6.3.3.3 Fragmentation
215 6.3.3.3.1 Non-ARQ Connections
6.3.3.4 Packing
6.3.3.4.2 Packing for ARQ-enabled connections
6.3.3.5 CRC calculation
6.3.3.5.1 CRC32 calculation for SC, SCa, and OFDM mode
216 6.3.3.5.1.1 CRC32 test vectors for SC, SCa, and OFDM mode
6.3.3.5.2 CRC32 calculation for OFDMA mode
217 6.3.3.5.2.1 CRC32 test vectors for OFDMA mode
6.3.4 ARQ mechanism
6.3.4.2 ARQ Feedback IE format
218 6.3.4.3 ARQ parameters
6.3.4.3.4 ARQ_RETRY_TIMEOUT
6.3.4.6 ARQ operation
6.3.4.6.2 Transmitter state machine
221 6.3.4.6.3 Receiver state machine
6.3.5 Scheduling services
224 6.3.5.2 Uplink request/grant scheduling
6.3.5.2.1 UGS
225 6.3.5.2.2 rtPS
6.3.5.2.2.1 Extended rtPS
226 6.3.5.2.3 nrtPS
6.3.5.2.4 BE service
6.3.6 Bandwidth allocation and request mechanisms
6.3.6.1 Requests
227 6.3.6.3 Polling
6.3.6.3.1 Unicast
6.3.7 MAC support of PHY
6.3.7.4 UL-MAP
6.3.7.4.3 Uplink interval definition
6.3.7.4.3.1 Request IE
6.3.7.4.3.2 Initial Ranging IE
6.3.7.4.3.4 End of map IE
6.3.7.5 Map relevance and synchronization
228 6.3.7.5.3 WirelessMAN-OFDM PHY
6.3.7.6 Optional MAC AAS Ssupport of WirelessMAN-SCa, OFDM, and OFDMA
6.3.7.6.1 AAS MAC services
6.3.7.6.4 Alerting the BS about presence of a new SS in an AAS system
6.3.8 Contention resolution
6.3.9 Network entry and initialization
229 6.3.9.1 Scanning and synchronization to the downlink
6.3.9.2 Obtain downlink parameters
6.3.9.3 Obtain uplink parameters
230 6.3.9.5 Initial ranging and automatic adjustments
6.3.9.5.1 Contention-based Iinitial ranging and automatic adjustments
231 6.3.9.6 Ranging parameter adjustment
234 6.3.9.7 Negotiate basic capabilities
235 6.3.9.8 SS authorization and key exchange
236 6.3.9.9 Registration
6.3.9.10 Establish IP connectivity
237 6.3.9.15 Forcing MSs to perform Network Entry at once
6.3.10 Ranging
6.3.10.1 Downlink burst profile management
240 6.3.10.2 Uplink periodic ranging
242 6.3.10.3 OFDMA-based ranging
243 6.3.10.3.1 Contention-based initial ranging and automatic adjustments
249 6.3.10.3.2 Periodic ranging and automatic adjustments
250 6.3.10.3.3 CDMA handover ranging and automatic adjustment
251 6.3.13 Establishment of multicast and broadcast transport connections
6.3.14 QoS
6.3.14.1 Theory of operation
6.3.14.2 Service flows
6.3.14.3 Object model
253 6.3.14.4 Service classes
6.3.14.4.1 Global service flows
256 6.3.14.7 Service Flow Creation
6.3.14.7.1 Dynamic service flow creation
6.3.14.7.1.1 Dynamic service flow creation-SS-initiated
6.3.14.9 Service flow management
6.3.14.9.2 Dynamic Service Flow state transitions
6.3.14.9.3 DSA
6.3.14.9.3.1 SS-initiated DSA
6.3.14.9.3.3 DSA state transition diagrams
6.3.14.9.4 DSC
257 6.3.14.9.4.3 DSC state transition diagrams
6.3.14.9.5 Connection release
6.3.15 DFS for license-exempt operation Procedures for shared frequency band usage
6.3.15.1 Introduction
258 6.3.15.2 Testing channels for primary other users (including specific spectrum users)
259 6.3.15.3 Discontinuing operations after detecting primary specific spectrum users
6.3.15.4 Detecting primary specific spectrum users
6.3.15.5 Scheduling for channel testing
6.3.15.6 Requesting and reporting of measurements
260 6.3.15.7 Selecting and advertising a new channel
6.3.17 MAC support for H-ARQ HARQ
262 6.3.17.1 Subpacket generation
263 6.3.17.2 DL/UL ACK/NAK signaling
6.3.17.3 H-ARQ HARQ parameter signaling
6.3.18 DL CINR report operation
6.3.18.1 DL CINR report with REP-RSP MAC message
264 6.3.18.2 Periodic CINR report with fast-feedback (CQICH) channel
266 6.3.19 optional Band AMC operations using 6-bit CQICH encoding
6.3.19.1 Call flows for mode transitions between normal subchannel and band AMC
267 6.3.19.2 Conditions of transition triggering
6.3.20 Data delivery services for mobile network
6.3.20.1 Types of data delivery services
268 6.3.20.1.1 Unsolicited grant service (UGS)
6.3.20.1.2 Real-Time Variable Rate (RT-VR) service
269 6.3.20.1.3 Non-Real-Time Variable Rate (NRT-VR) service
6.3.20.1.4 Best Effort (BE) service
6.3.20.1.5 Extended Real-Time Variable Rate (ERT-VR) service
270 6.3.21 Sleep mode for mobility-supporting MS
6.3.21.1 Introduction
272 6.3.21.2 Power Saving Classes of type I
273 6.3.21.3 Power Saving Classes of type II
274 6.3.21.4 Power Saving Classes of type III
275 6.3.21.5 Periodic Ranging in sleep mode
276 6.3.21.6 MDHO/FBSS Diversity Set Maintenance in sleep mode
6.3.22 MAC layer handover procedures
6.3.22.1 Network topology acquisition
6.3.22.1.1 Network topology advertisement
6.3.22.1.2 MS scanning of neighbor BSs
278 6.3.22.1.3 Association procedure
6.3.22.1.3.1 Association Level 0-Scan / Association without coordination
6.3.22.1.3.2 Association Level 1-Association with coordination
280 6.3.22.1.3.3 Association Level 2-Network Assisted Association Reporting
6.3.22.2 HO process
283 6.3.22.2.1 Cell reselection
6.3.22.2.2 HO decision and initiation
285 6.3.22.2.3 HO cancellation
6.3.22.2.4 Use of scanning and association results
6.3.22.2.5 Termination with the Serving BS
286 6.3.22.2.6 Drops during HO
6.3.22.2.7 Network entry/re-entry
288 6.3.22.2.8 MS-Assisted coordination of DL transmission at Target BS for HO
289 6.3.22.2.9 HO process
292 6.3.22.3 Macro diversity handover and fast BS switching
293 6.3.22.3.1 MDHO decision and initiation
294 6.3.22.3.2 FBSS decision and initiation
295 6.3.22.3.3 Diversity Set update for MDHO/FBSS
296 6.3.22.3.4 Anchor BS update for MDHO/FBSS
6.3.22.3.4.1 HO MAC management message method
6.3.22.3.4.2 Fast Anchor BS selection feedback mechanism
298 6.3.22.3.5 MS-Assisted coordination of DL transmission at new Anchor BS
299 6.3.23 Multicast and broadcast services (MBS)
6.3.23.1 Single-BS Access
6.3.23.2 Multi-BS Access
300 6.3.23.2.1 Establishment and maintenance of multicast and broadcast services
301 6.3.23.2.2 Performance enhancement with macro diversity
6.3.23.2.3 Power saving operation
6.3.23.2.4 Multicast and broadcast zone (MBS_Zone)
6.3.24 MS Idle Mode (optional)
303 6.3.24.1 MS Idle Mode Initiation
304 6.3.24.2 Cell selection
6.3.24.3 MS Broadcast Paging Message time synchronization
6.3.24.4 MS Paging Unavailable Interval
6.3.24.5 MS Paging Listening Interval
305 6.3.24.6 BS Broadcast Paging message
306 6.3.24.7 Paging Availability Mode termination
6.3.24.7.1 MS side
307 6.3.24.7.2 BS side
6.3.24.8 Location Update
6.3.24.8.1 Location Update conditions
6.3.24.8.1.1 Paging Group update
6.3.24.8.1.2 Timer update
308 6.3.24.8.1.3 Power Down update
6.3.24.8.1.4 MAC Hash Skip Threshold update
6.3.24.8.2 Location Update Process
6.3.24.8.2.1 Secure Location Update process
309 6.3.24.8.2.2 Unsecure Location Update process
6.3.24.9 Network Re-Entry from Idle Mode
311 7. Security sublayer
7.1 Architecture
312 7.1.1 Packet data encryption Secure encapsulation of MPDUs
7.1.2 Key management protocol
313 7.1.3 Authentication protocol
7.1.3.1 PKM RSA authentication
314 7.1.3.2 PKM EAP authentication
7.2 PKM protocol
7.2.1 PKM Version 1
7.2.1.1 Security Associations
315 7.2.1.3 SS authorization and AK exchange overview
7.2.1.3.1 Authorization via RSA authentication protocol
316 7.2.1.4 TEK exchange overview
7.2.1.4.1 TEK exchange overview for PMP topology
7.2.1.4.2 TEK exchange overview for Mesh mode
7.2.1.5 Security capabilities selection
7.2.1.6 Authorization state machine
7.2.1.6.1 States
7.2.1.6.2 Messages
7.2.1.6.3 Events
7.2.1.6.4 Parameters
317 7.2.1.6.5 Actions
7.2.1.7 TEK state machine
7.2.1.7.1 States
7.2.1.7.2 Messages
7.2.1.7.3 Events
7.2.1.7.4 Parameters
7.2.1.7.5 Actions
7.2.2 PKM Version 2
7.2.2.1 TEK exchange overview for PMP topology
318 7.2.2.2 Key derivation
7.2.2.2.1 RSA-based authorization
319 7.2.2.2.2 EAP authentication
320 7.2.2.2.3 Authorization Key (AK) derivation
321 7.2.2.2.4 Key Encryption Key (KEK) derivation
7.2.2.2.5 Group Key Encryption Key (GKEK) derivation
7.2.2.2.6 Traffic Encryption Key (TEK)
7.2.2.2.7 Group Traffic Encryption Key (GTEK)
7.2.2.2.8 MBS Traffic Key (MTK)
322 7.2.2.2.9 Message authentication keys (HMAC/CMAC) and KEK derivation
7.2.2.2.10 Key hierarchy
327 7.2.2.2.11 Maintenance of PMK and AK
7.2.2.2.12 PKMv2 PMK and AK switching methods
7.2.2.3 Associations
7.2.2.3.1 Security associations
328 7.2.2.3.2 Group Security Association
7.2.2.3.3 MBS Group Security Association
7.2.2.4 Security context
329 7.2.2.4.1 AK context
330 7.2.2.4.2 GKEK context
7.2.2.4.3 PMK context
331 7.2.2.4.4 PAK context
7.2.2.5 TEK state machine
333 7.2.2.5.1 States
334 7.2.2.5.2 Messages
7.2.2.5.3 Events
335 7.2.2.5.4 Parameters
7.2.2.5.5 Actions
338 7.3 Key Usage
339 7.5 Cryptographic methods
7.5.1 Data Encryption methods
7.5.1.1 Data encryption with DES in CBC mode
340 7.5.1.2 Data encryption with AES in CCM mode
7.5.1.2.1 PDU Ppayload Fformat
7.5.1.2.2 PN (Packet Number)
341 7.5.1.2.3 CCM Aalgorithm
342 7.5.1.2.5 AES-CCM Mode example encrypted MPDUs
343 7.5.1.3 Data encryption with AES in CTR mode
7.5.1.3.1 Encrypted MBS PDU payload format
344 7.5.1.4 Data encryption with AES in CBC mode
7.5.1.4.1 CBC IV generation
346 7.5.1.2.4 Receive Processing Rules
7.5.2.4 Encryption of TEK-128 with AES Key Wrap
7.5.3 Calculation of HMAC-Digests
7.5.4 Derivation of TEKs, KEKs, and message authentication keys
7.5.4.2 3-DES KEKs
347 7.5.4.4 Cipher-based MAC (CMAC)
7.5.4.4.1 Calculation of CMAC Value
348 7.5.4.5 Derivation of TEKs, KEKs, message authentication keys and GKEKs in PKMv2
7.5.4.5.1 AES KEKs in PKMv2
7.5.4.5.2 Encryption of GKEK in PKMv2
7.5.4.5.2.1 Encryption of GKEK with 3-DES in PKMv2
349 7.5.4.5.2.2 Encryption of GKEK with RSA in PKMv2
7.5.4.5.2.3 Encryption of GKEK with ECB mode AES in PKMv2
7.5.4.5.2.4 Encryption of GKEK with AES Key Wrap in PKMv2
350 7.5.4.6 Key derivation functions for PKMv2
7.5.4.6.1 Dot16KDF for PKMv2
351 7.6.1.4.3 BS certificate
7.6.1.6 tbsCertificate.issuerUniqueID and tbsCertificate.subjectUniqueID
7.7 Pre-Authentication
7.8 PKMv2
7.8.1 PKMv2 SA-TEK 3-way handshake
353 7.8.2 BS and SS RSA mutual authentication and AK exchange overview
354 7.8.3 Multicast Broadcast Service (MBS) support
7.8.3.1 MBS security associations
355 7.8.3.2 MBS Key Management
7.8.3.2.1 MBS Authorization Key (MAK) establishment
7.8.3.2.2 MGTEK establishment
7.8.3.2.3 MBS Traffic Key establishment
7.9 Optional multicast and broadcast rekeying algorithm (MBRA)
7.9.1 MBRA flow
357 7.9.1.1 BS usage of GTEK
358 7.9.1.2 SS usage of GTEK
7.9.2 Messages
7.9.3 Encryption of GKEK
7.9.4 Message authentication keys for the Key Update Command message
359 8. PHY
8.1 WirelessMAN-SC PHY specification
8.1.3 Duplexing techniques and PHY Type parameter encodings
8.1.3.2 TDD operation
8.1.3.2.1 TTG
8.1.3.2.2 RTG
8.1.4 Downlink PHY
8.1.4.1 Downlink subframe
8.1.4.1.2 Frame control section
8.1.4.1.2.5 Downlink_Burst_Profile
8.1.9 Channel quality measurements
8.1.9.2 RSSI mean and standard deviation
360 8.2 WirelessMAN-SCa PHY
8.2.1 Transmit processing
8.2.1.5 Duplex framing
8.2.1.5.1 FDD
8.2.1.5.1.3 FDD Channel and Burst Descriptor field definitions
8.2.1.5.2 TDD
8.2.1.5.2.1 TDD Channel Descriptor field definitions
361 8.2.1.8 Compressed FCH maps
8.2.1.8.2 Compressed UL-MAP
8.2.1.9 MAP message fields and IEs
8.2.1.9.3 UL-MAP IE formats
8.2.1.9.3.6 Fast_Ranging_IE
8.2.2 Channel quality measurements
8.2.2.2 RSSI mean and standard deviation
362 8.3 WirelessMAN-OFDM PHY Layer
8.3.2 OFDM symbol parameters and transmitted signal
8.3.2.4 Parameters of transmitted signal
8.3.3 Channel coding
8.3.3.1 Randomization
363 8.3.3.2 FEC
8.3.3.2.1 Concatenated Reed-Solomon-convolutional code (RS-CC)
364 8.3.3.4 Modulation
8.3.3.4.2 Pilot modulation
8.3.3.5 Example OFDM uplink RS-CC encoding
8.3.3.5.3 Subchannelization (1 subchannel)
365 8.3.3.6 Preamble structure and modulation
8.3.5 Frame structure
8.3.5.1 PMP
369 8.3.5.1.1 PMP DL subchannelization zone
371 8.3.5.2 PMP-AAS Zone
373 8.3.5.5 Burst Pprofile format
8.3.6 MAP message fields and IEs
8.3.6.2 DL-MAP IE format
374 8.3.6.2.1 DIUC allocations
8.3.6.2.3 Channel measurement IE format
8.3.6.2.8 DL-MAP dummy IE format
375 8.3.6.2.9 DL SUBCH_IE format
8.3.6.3 UL-MAP IE format
8.3.6.3.1 UIUC allocations
8.3.6.3.3 Subchannelized network entry IE
376 8.3.6.3.5 UL-MAP power control IE format
8.3.6.3.7 UL-MAP Physical Modifier IE
8.3.6.3.8 UL-MAP dummy IE format
377 8.3.6.3.9 Fast_Ranging_IE
8.3.6.3.10 UL-MAP Fast tracking information element
378 8.3.6.6 Compressed private maps
379 8.3.6.6.1 Compressed private DL-MAP
380 8.3.6.6.2 Compressed Private UL-MAP
381 8.3.6.7 Reduced private maps
382 8.3.6.7.1 Reduced private DL-MAP
384 8.3.6.7.2 Reduced private UL-MAP
385 8.3.7 Control mechanisms
8.3.7.2 Ranging
387 8.3.7.2.1 Initial Ranging in AAS systems
388 8.3.7.3 Bandwidth requesting
8.3.7.3.2 Full Contention transmission
389 8.3.7.4 Power control
8.3.7.4.1 Closed loop power control mode
8.3.7.4.2 Open Loop Power Control Mode (Optional)
391 8.3.8 Transmit diversity: Sspace-Ttime Ccoding (optional)
8.3.9 Channel quality measurements
8.3.9.2 RSSI mean and standard deviation
392 8.3.9.3 CINR mean and standard deviation
8.3.10 Transmitter requirements
8.3.10.1 Transmit power level control
8.3.10.2 Transmitter spectral flatness
393 8.3.11 Receiver requirements
8.3.11.1 Receiver sensitivity
394 8.3.11.2 Receiver adjacent and alternate channel rejection
8.3.12 Frequency and timing requirements
395 8.4 WirelessMAN-OFDMA PHY layer
8.4.1 Introduction
8.4.2 OFDMA symbol description, symbol parameters and transmitted signal
8.4.2.3 Primitive parameters
8.4.3 OFDMA basic terms definition
8.4.3.1 Slot and Ddata Rregion
396 8.4.3.4 OFDMA data mapping
398 8.4.4 Frame structure
8.4.4.2 PMP frame structure
400 8.4.4.3 DL Fframe Pprefix
403 8.4.4.4 Allocation of subchannels for FCH and DL-MAP, and logical subchannel numbering
8.4.4.5 Uplink transmission allocations
405 8.4.4.6 Optional Diversity-Map ScanAAS support
8.4.4.6.1 AAS frame structure
406 8.4.4.6.2 AAS-DLFP Format Optional Diversity-Map scan
409 8.4.4.6.3 AAS Diversity-Scan Map network entry procedure
8.4.4.6.4 AAS preambles
411 8.4.4.6.4.1 AAS Downlink Preamble
8.4.4.6.4.2 AAS uplink preamble
412 8.4.4.7 Optional Direct Signaling Method
8.4.5 Map message fields and IEs
8.4.5.3 DL-MAP IE format
414 8.4.5.3.1 DIUC allocation
415 8.4.5.3.2 DL-MAP extended IE format
8.4.5.3.2.1 DL-MAP extended IE format
8.4.5.3.2.2 DL-MAP extended-2 IE format
416 8.4.5.3.3 AAS downlink IE format
418 8.4.5.3.4 Transmit diversity (TD)Space-Time Coding (STC)/DL_Zone switch IE format
421 8.4.5.3.6 Data location in another BS IE
422 8.4.5.3.7 CID Switch IE
8.4.5.3.8 MIMO DL basic IE format
426 8.4.5.3.9 MIMO DL Eenhanced IE format
428 8.4.5.3.10 H-ARQ HARQ and Sub-MAP Pointer IE
429 8.4.5.3.11 DL-MAP Physical modifier IE
431 8.4.5.3.12 Multicast and Broadcast Service MAP IE (MBS_MAP_IE)
433 8.4.5.3.13 DL PUSC Burst Allocation in Other Segment IE
434 8.4.5.3.14 HO anchor active DL MAP IE
435 8.4.5.3.15 HO active anchor DL MAP IE
436 8.4.5.3.16 HO CID Translation MAP IE
437 8.4.5.3.17 MIMO in another BS IE
438 8.4.5.3.18 Macro-MIMO DL Basic IE format
439 8.4.5.3.19 UL noise and interference level IE format
441 8.4.5.3.20 Dedicated DL control IE
442 8.4.5.3.20.1 Reduced CID IE
444 8.4.5.3.20.2 Skip IE
445 8.4.5.3.21 HARQ DL MAP IE
458 8.4.5.3.21.1 Dedicated MIMO DL Control IE format
461 8.4.5.3.22 DL HARQ ACK IE
462 8.4.5.3.23 Enhanced DL MAP IE
463 8.4.5.3.24 Closed-loop MIMO DL enhanced IE format
465 8.4.5.3.25 Broadcast Control Pointer IE
466 8.4.5.3.26 AAS_SDMA_DL_IE format
469 8.4.5.3.27 PUSC ASCA Allocation
470 8.4.5.4 UL-MAP IE format
472 8.4.5.4.1 UIUC Aallocation
473 8.4.5.4.2 PAPR reduction/Safety zone/Sounding zone allocation IE
474 8.4.5.4.3 CDMA allocation UL-MAP IE format
8.4.5.4.4 UL-MAP extended IE format
8.4.5.4.4.1 UL-MAP extended IE format
475 8.4.5.4.4.2 UL-MAP extended-2 IE format
476 8.4.5.4.5 Power Control IE format
477 8.4.5.4.6 AAS uplink IE format
478 8.4.5.4.7 UL Zone switch IE format
479 8.4.5.4.8 Mini-subchannel allocation IE
480 8.4.5.4.9 FAST-FEEDBACK message mapping
481 8.4.5.4.10 FAST_FEEDBACK Fast-feedback channels
8.4.5.4.10.1 Fast DL measurement feedback
483 8.4.5.4.10.2 Fast MIMO feedback
484 8.4.5.4.10.3 Mode Selection Feedback
485 8.4.5.4.10.4 Effective CINR feedback for fast-feedback channel
486 8.4.5.4.10.5 Enhanced Fast-feedback channels
489 8.4.5.4.10.6 Fast DL measurement feedback for Enhanced Fast-feedback channel
490 8.4.5.4.10.7 Fast MIMO feedback of Quantized Precoding Weight for Enhanced Fast-feedback channel
491 8.4.5.4.10.8 MIMO Mode Feedback for Enhanced Fast-feedback channel
494 8.4.5.4.10.9 Anchor BS report
495 8.4.5.4.10.10 UEP fast-feedback
496 8.4.5.4.10.11 Band AMC differential CINR feedback for Enhanced Fast-feedback channel
8.4.5.4.10.12 Indication Flag Feedback
497 8.4.5.4.10.13 Primary and secondary Fast-feedback channels
499 8.4.5.4.10.14 Extended rtPS bandwidth request
8.4.5.4.10.15 MIMO feedback for transmit beamforming
508 8.4.5.4.11 MIMO UL Basic IE format
510 8.4.5.4.12 CQICH Allocation IE Format
513 8.4.5.4.13 UL ACK channel
515 8.4.5.4.14 UL-MAP Physical Modifier IE
517 8.4.5.4.15 UL allocation start IE
8.4.5.4.16 CQICH Enhanced Allocation IE format
519 8.4.5.4.17 UL PUSC Burst Allocation in Other Segment IE
520 8.4.5.4.18 HO anchor active UL MAP IE
521 8.4.5.4.19 HO active anchor UL MAP IE
8.4.5.4.20 MIMO UL Enhanced IE format
522 8.4.5.4.21 OFDMA Fast_Ranging_IE format IE
524 8.4.5.4.22 UL-MAP_Fast_Tracking_IE
525 8.4.5.4.23 Anchor BS Switch IE
527 8.4.5.4.24 HARQ UL MAP IE
537 8.4.5.4.24.1 Dedicated UL Control IE
538 8.4.5.4.24.2 Dedicated MIMO UL control IE format
8.4.5.4.25 HARQ ACK Region Allocation IE
539 8.4.5.4.26 UL_Sounding_Command_IE
540 8.4.5.4.27 AAS_SDMA_UL_IE format
542 8.4.5.4.28 Feedback polling IE
544 8.4.5.5 Burst profile format
545 8.4.5.6 Compressed maps
546 8.4.5.6.1 Compressed DL-MAP
547 8.4.5.6.2 Compressed UL-MAP
8.4.5.7 AAS-FBCK-REQ/RSP message bodies
548 8.4.5.8 Reduced AAS private maps
8.4.5.8.1 Reduced AAS private DL-MAP
552 8.4.5.8.2 Reduced AAS private UL-MAP
555 8.4.6 OFDMA subcarrier allocations
8.4.6.1 Downlink
8.4.6.1.1 Preamble
567 8.4.6.1.1.1 Common SYNC symbol (optional)
568 8.4.6.1.1.2 Common SYNC symbol sequence
569 8.4.6.1.2 Symbol structure
8.4.6.1.2.1 Symbol structure for PUSC
573 8.4.6.1.2.2 Symbol structure for FUSC
577 8.4.6.1.2.3 Additional optional symbol structure for FUSC
580 8.4.6.1.2.4 Optional downlink tile usage of subchannels-TUSC1
581 8.4.6.1.2.5 Optional downlink tile usage of subchannels-TUSC2
8.4.6.1.2.6 TUSC1/TUSC2 support for SDMA
8.4.6.2 Uplink
583 8.4.6.2.1 Symbol structure for subchannel (PUSC)
8.4.6.2.2 Partitioning of subcarriers into subchannels in the uplink
584 8.4.6.2.3 Uplink permutation example
8.4.6.2.4 Partition a subchannel to mini-subchannels
585 8.4.6.2.5 Additional optional symbol structure for PUSC
587 8.4.6.2.5.1 Symbol structure for subchannel
8.4.6.2.5.2 Partitioning of subcarriers into subchannels in the uplink
588 8.4.6.2.6 Data subchannel rotation scheme
589 8.4.6.2.7 Optional uplink channel sounding in TDD systems
8.4.6.2.7.1 Channel sounding
596 8.4.6.2.7.2 Power assignment
597 8.4.6.2.7.3 Direct transmission of DL channel coefficients
599 8.4.6.2.7.4 Feedback of Received Pilot Coefficients
8.4.6.3 Optional adjacent subcarrier permutations for AAS and AMC
602 8.4.6.3.1 AMC optional permutation
604 8.4.6.3.2 Band-AMC operation in normal DL/UL-MAP
605 8.4.6.3.3 AMC support for SDMA
606 8.4.6.4 Optional permutations for PUSC
8.4.6.4.1 Optional permutation for PUSC adjacent subcarrier allocation (PUSC-ASCA)
8.4.6.4.1.1 Allocation using adjacent clusters
607 8.4.6.4.1.1.1 Allocation of subcarriers to subchannels
608 8.4.6.4.1.2 Allocation using distributed clusters
8.4.6.4.1.2.1 Allocation of subcarriers to subchannels
8.4.6.8 Optional reduced AAS private maps
609 8.4.7 OFDMA ranging
8.4.7.1 Initial-ranging/handover-ranging transmissions
611 8.4.7.3 Ranging codes
612 8.4.7.4 Ranging and BW request opportunity size
8.4.8 Transmit diversitySpace-Time Coding (optional)
8.4.8.1 Transmit diversitySTC using two antennas
613 8.4.8.1.1 Multiple input single output channel estimation and synchronization
8.4.8.1.2 Space time coding using two antennas
8.4.8.1.2.1 STC encoding
615 8.4.8.1.3 Frequency hopping diversity coding (FHDC)
8.4.8.1.4 STC/FHDC configurations
8.4.8.1.5 Uplink using STC
617 8.4.8.2 Transmit diversitySTC for four antennas
8.4.8.2.1 STC for four antennas using PUSC
618 8.4.8.2.2 STC for four antennas using FUSC
619 8.4.8.2.3 STC configurations
8.4.8.2.4 MIMO Macro diversity handover based macro-diversity transmission
620 8.4.8.3 STC for the optional zones in the downlink
622 8.4.8.3.1 Symbol structure for optional AMC and optional FUSC
8.4.8.3.1.1 Allocation of pilot subcarriers
624 8.4.8.3.1.2 Allocation of data subchannels
628 8.4.8.3.2 Symbol structure for the optional PUSC-ASCA
629 8.4.8.3.3 Transmission schemes for 2-antenna BS in DL
8.4.8.3.4 Transmission schemes for 3-antenna BS in DL
631 8.4.8.3.4.1 Enhanced 3 Tx Matrix A with Antenna Grouping
8.4.8.3.4.2 Enhanced 3 Tx Matrix B with Antenna Grouping
632 8.4.8.3.4.3 3 Tx Matrix C with Antenna Selection
633 8.4.8.3.5 Transmission schemes for 4-antenna BS
635 8.4.8.3.5.1 Enhanced 4 Tx Matrix A with Antenna Grouping
8.4.8.3.5.2 Enhanced 4 Tx Matrix B with Antenna Grouping
637 8.4.8.3.5.3 4 Tx Matrix C with Antenna Selection
638 8.4.8.3.6 MIMO precoding
639 8.4.8.4 STC for the optional zones in the uplink
640 8.4.8.4.1 Allocation of pilot subcarriers
8.4.8.4.2 Allocation of data subchannels
641 8.4.8.4.3 Transmission schemes for 2-antenna MS in UL
8.4.8.5 MIMO midamble
643 8.4.8.5.1 Midamble Sequence for PUSC
8.4.8.5.2 Midamble Sequence for FUSC and optional FUSC
644 8.4.8.5.2.1 PAPR reduction sequence for BS with 2 antennas
652 8.4.8.5.2.2 PAPR Reduction Sequence for BS with 3 or 4 antennas
656 8.4.8.9 STC subpacket combining
657 8.4.9 Channel coding
658 8.4.9.1 Randomization
659 8.4.9.2 Encoding
8.4.9.2.1 Convolutional coding (CC)
8.4.9.2.1.1 Incremental Redundancy HARQ support (optional)
660 8.4.9.2.2 Block Turbo Ccoding (optional)
661 8.4.9.2.3 Convolutional turbo codes (optional)
8.4.9.2.3.1 CTC encoder
663 8.4.9.2.3.2 CTC interleaver
8.4.9.2.3.3 Determination of CTC circulation states
8.4.9.2.3.4 Subpacket generation
664 8.4.9.2.3.5 Optional H-ARQ Optional IR HARQ (Incremental redundancy HARQ) support
668 8.4.9.2.5 Low Density Parity Check code (optional)
8.4.9.2.5.1 Code description
671 8.4.9.2.5.2 Code rate and block size adjustment
672 8.4.9.2.5.3 Packet encoding
673 8.4.9.3 Interleaving
8.4.9.3.1 Optional interleaver for CC
8.4.9.4 Modulation
8.4.9.4.1 Permutation definition Subcarrier randomization
674 8.4.9.4.2 Data modulation
675 8.4.9.4.3 Pilot modulation
676 8.4.9.4.3.1 Preambles/midambles pilot modulation
8.4.9.5 Repetition
8.4.9.6 Zone boosting
8.4.9.7 Multiple HARQ (optional)
677 8.4.9.7.1 Generic Chase HARQ
8.4.9.7.2 CC Incremental Redundancy HARQ
678 8.4.10 Control mechanisms
8.4.10.3 Power Ccontrol
679 8.4.10.3.1 Closed loop power control
680 8.4.10.3.2 Optional open loop power control
681 8.4.10.3.2.1 UL Tx power and Headroom transmission condition
682 8.4.11 Channel quality measurements
8.4.11.2 RSSI mean and standard deviation
8.4.11.3 CINR mean and standard deviation
684 8.4.11.4 Optional Frequency Selectivity Characterization
8.4.12 Transmitter requirements
8.4.12.2 Transmitter spectral flatness
685 8.4.12.3 Transmitter constellation error and test method
8.4.12.3.1 RMS constellation error measurement for BS (downlink)
686 8.4.12.3.2 RMS constellation error measurement for SS
8.4.12.3.3 Calculation of RMS constellation error
687 8.4.12.3.4 Unmodulated subcarrier errors for SS
8.4.12.4 Transmitter reference timing accuracy
688 8.4.13 Receiver requirements
8.4.13.1 OFDMA PHY requirements for enhanced handover performance
8.4.13.1.1 Receiver sensitivity
689 8.4.13.1.2 MS uplink transmit time tracking accuracy
8.4.13.1.3 MS autonomous neighbor cell scanning
8.4.13.2 Receiver adjacent and alternatenon-adjacent channel rejection
690 8.4.13.3 Receiver maximum input signal
8.4.13.3.1 SS receiver maximum input signal
8.4.13.3.2 BS receiver maximum input signal
8.4.14 Frequency control requirements
8.4.14.1 Center frequency and symbol clock frequency tolerance
8.4.15 Optional HARQ support
691 8.4.15.1 Optional Chase HARQ support
8.4.15.1.1 HARQ Retransmission process
8.4.15.1.2 CRC
8.4.15.1.3 Concurrent transmission of UL HARQ bursts
692 8.4.15.1.4 Encoding
8.4.15.2 Optional IR HARQ for CC (convolutional code)
693 9. Configuration
9.1 SS IP addressing used on secondary management connection
9.1.2 Mobile IP v4 fields used by the MS
695 10. Parameters and constants
10.1 Global values
700 10.2 PKM parameter values
10.3 PHY-specific values
10.3.3 WirelessMAN-OFDM parameters and constant definitions
10.3.3.1 Uplink Allocation Start Time
10.3.4 WirelessMAN-OFDMA parameters and constant definitions
10.3.4.1 Uplink Allocation Start Time
701 10.4 Well-known addresses and identifiers
703 11. TLV Encodings
11.1 Common encodings
11.1.1 Current transmit power
11.1.2 Authentication Tuples
11.1.2.1 HMAC Tuple
11.1.2.2 CMAC Tuple
704 11.1.2.3 Short-HMAC Tuple
705 11.1.3 MAC version encoding
11.1.5 Vendor ID encoding
706 11.1.6 Vendor-specific information
11.1.7 MOB-NBR-ADV message encodings
707 11.3 UCD management message encodings
11.3.1 UCD channel encodings
713 11.3.1.1 Uplink burst profile encodings
714 11.4 DCD management message encodings
11.4.1 DCD channel encodings
718 11.4.2 Downlink burst profile encodings
720 11.5 RNG-REQ message encodings
721 11.6 RNG-RSP management message encodings
725 11.6.1 SA Challenge Tuple
726 11.7 REG-REQ/RSP management message encodings
727 11.7.2 SS management support
11.7.6 Number of uplink CIDs supported
11.7.6.1 Number of uplink transport CIDs supported
728 11.7.6.2 Number of downlink transport CIDs supported
11.7.7 Convergence sublayer capabilities
11.7.7.1 Classification/PHS options and SDU encapsulation support
11.7.7.3 PHS support
729 11.7.8 SS capabilities encodings
11.7.8.10 Maximum MAC data per frame support
11.7.8.10.1 Maximum amount of MAC level data per DL frame
730 11.7.8.10.2 Maximum amount of MAC level data per UL frame
11.7.8.11 Packing support
11.7.8.12 MAC Extended rtPS support
11.7.8.13 Maximum number of bursts transmitted concurrently to the MS
731 11.7.9 SS MAC Address
11.7.10 CID update encodings
732 11.7.10.1 Compressed CID update encodings
11.7.11 Method for allocating IP address for the secondary management connection
11.7.12 Handover supported
733 11.7.13 HO Support
11.7.13.1 System Resource_Retain_Time
11.7.13.2 HO Process Optimization MS Timer
11.7.13.3 MS Handover Retransmission Timer
734 11.7.14 Mobility parameters support
11.7.14.1 Mobility features supported
11.7.15 Sleep mode recovery time
11.7.16 MS-PREV-IP-ADDR
735 11.7.17 SKIP-ADDR-ACQUISITION
11.7.18 SAID update encodings
11.7.19 Total number of provisioned service flow
736 11.7.20 Idle Mode
11.7.20.1 Idle Mode Timeout
11.7.20.2 Paging Interval Length
11.7.21 SA TEK Update
737 11.7.22 GKEK Parameters
738 11.7.23 ARQ-ACK Type
11.7.24 HO parameters processing time
11.7.25 MAC header and extended subheader support
739 11.7.26 SN Reporting Base
740 11.8 SBC-REQ/RSP management message encodings
11.8.2 Capabilities for construction and transmission of MAC PDUs
11.8.3 Physical parameters supported
11.8.3.6 WirelessMAN-OFDM specific parameters
11.8.3.6.2 OFDM SS demodulator
11.8.3.6.3 OFDM SS modulator
741 11.8.3.6.6 OFDM private map support
11.8.3.7 WirelessMAN-OFDMA specific parameters
11.8.3.7.1 OFDMA MS FFT sizes
11.8.3.7.2 OFDMA SS demodulator
742 11.8.3.7.3 OFDMA SS modulator
11.8.3.7.4 OFDMA SS Ppermutation support
743 11.8.3.7.5 OFDMA SS demodulator for MIMO support
744 11.8.3.7.6 OFDMA SS MIMO uplink support
11.8.3.7.7 OFDMA AAS private map support
745 11.8.3.7.8 OFDMA AAS capabilities
746 11.8.3.7.9 OFDMA SS CINR measurement capability
11.8.3.7.10 OFDM SS uplink power control support
11.8.3.7.11 OFDMA SS uplink power control support
11.8.3.7.12 OFDMA MAP Capability
747 11.8.3.7.13 Uplink control channel support
11.8.3.7.14 OFDMA MS CSIT capability
748 11.8.3.7.15 Maximum number of burst per frame capability in HARQ
749 11.8.3.7.16 OFDMA SS Modulator for MIMO Support
11.8.3.7.17 SDMA Pilot capability
11.8.3.7.18 OFDMA Multiple Downlink Burst Profile Capability
750 11.8.3.7.19 HARQ buffer capability
11.8.3.7.19.1 HARQ incremental redundancy buffer capability
751 11.8.3.7.19.2 HARQ Chase combining and CC-IR buffer capability
11.8.4 Security Negotiation Parameters
11.8.4.1 PKM Version Support
752 11.8.4.2 Authorization policy support
753 11.8.4.3 MAC (Message Authentication Code) Mode
754 11.8.4.4 PN window size
11.8.5 Power save class types capability
755 11.8.6 Extension capability
11.8.7 HO Trigger metric support
11.8.8 Association type support
756 11.9 PKM-REQ/RSP management message encodings
757 11.9.3 TEK
11.9.4 Key lifetime
758 11.9.5 Key-Sequence-Number
11.9.6 HMAC Digest
11.9.6.1 Short-HMAC Digest
11.9.7 SAID
11.9.8 TEK parameters
759 11.9.13 Security capabilities
760 11.9.14 Cryptographic suite
761 11.9.16 Version
11.9.17 SA-Descriptor
762 11.9.19 PKM configuration settings
11.9.20 Nonce
11.9.21 SS_RANDOM
11.9.22 BS_RANDOM
763 11.9.23 Pre-PAK
11.9.24 BS-Certificate
11.9.25 SigBS
764 11.9.26 MS-MAC address
11.9.27 CMAC Digest
765 11.9.28 Key Push Modes
766 11.9.29 Key Push Counter
11.9.30 GKEK (Group Key Encryption Key)
11.9.31 SigSS
11.9.32 AKID
767 11.9.33 EAP payload
11.9.34 Auth result code
11.9.35 SA service type
11.9.36 PKMv2 configuration settings
768 11.9.37 Frame number
11.11 REP-REQ management message encodings
770 11.12 REP-RSP management message encodings
775 11.13 Service flow management encodings
777 11.13.4 QoS parameter set type
778 11.13.5 Traffic priority
11.13.6 Maximum sustained traffic rate
779 11.13.8 Minimum reserved traffic rate
11.13.11 Service flow Uplink grant scheduling type
780 11.13.12 Request/transmission policy
11.13.14 Maximum latency
781 11.13.17 Target SAID
11.13.18 ARQ TLVs for ARQ-enabled connections
11.13.18.8 ARQ_BLOCK_SIZE
11.13.18.9 RECEIVER_ARQ_ACK_PROCESSING_TIME
782 11.13.19 CS specific service flow encodings
11.13.19.1 CS specification
11.13.19.2 CS parameter encoding rules
783 11.13.19.3 Packet CS encodings for configuration and MAC messaging
11.13.19.3.3 Classifier error parameter set
11.13.19.3.4 Packet classification rule
11.13.19.3.4.3 Protocol
11.13.19.3.4.4 IP masked source address
11.13.19.3.4.5 IP masked destination address
784 11.13.19.3.4.6 Protocol source port range
11.13.19.3.4.7 Protocol destination port range
11.13.19.3.4.8 IEEE 802.3/Ethernet destination MAC address
785 11.13.19.3.4.9 IEEE 802.3/Ethernet source MAC address
11.13.19.3.4.16 Large Context ID for ROHC- or ECRTP-compressed packet or ROHC feedback packet
11.13.19.3.4.17 Classifier Action Rule
786 11.13.19.3.4.18 Short-format Context ID for ROHC- or ECRTP-compressed packet or ROHC feedback packet
11.13.19.3.6 PHS error parameter set
11.13.19.3.7.1 PHSI
11.13.19.3.7.4 PHSS
11.13.19.3.8 IPv6 Flow label
787 11.13.19.4 ATM CS Encodings for Cconfiguration and MAC Mmessaging
11.13.19.4.2 ATM Classifier TLV
11.13.19.4.2.3 ATM Classifier ID
11.13.19.4.4 ATM Classifier Error Parameter Set
11.13.20 Unsolicited grant interval
11.13.21 Unsolicited polling interval
788 11.13.22 FSN size
11.13.23 MBS service
11.13.24 Global Service Class Name
789 11.13.25 Type of Data Delivery Services
11.13.26 SDU Inter-arrival Interval
11.13.27 Time Base
11.13.28 Traffic Indication Preference
790 11.13.29 MBS zone identifier assignment
11.13.30 Paging preference
11.13.31 SN Feedback Enabled
791 11.13.32 HARQ Service Flows
11.13.33 CID allocation for Active BSs
11.13.34 Authorization Token
792 11.13.35 HARQ Channel mapping
11.13.36 PDU SN extended subheader for HARQ reordering
793 11.13.37 MBS contents IDs
794 11.14 DREG-CMD/REQ message encodings
795 11.15 Handover management encodings
11.15.1 Resource_Retain_Time
796 11.16 Sleep mode management encodings
11.16.1 SLPID_Update
11.16.2 Next Periodic Ranging
797 11.17 MOB_PAG-ADV management message encodings
11.17.1 CDMA code and transmission opportunity assignment
11.17.2 Page-Response Window
11.17.3 Enabled-Action-Triggered
798 11.18 MOB_NBR-ADV management message encodings
11.18.1 PHY Mode ID
800 11.19 MOB_SCN-REP message encodings
801 12. System profiles
12.1 WirelessMAN-SC (10-66 GHz) system profiles
12.1.1 WirelessMAN-SC MAC system profiles
12.1.1.3 Conventions for MAC Mmanagement messages for profiles profM1 and profM2
12.1.1.4 MAC Management message Pparameter Ttransmission Oorder
12.1.1.4.3 UCD
12.1.1.4.7 REG-REQ
12.1.1.4.20 DSA-RSP-BS Initiated Sservice Aaddition
802 12.1.1.4.23 DSC-RSP-BS Initiated Sservice Cchange
12.1.1.6 Message parameters specific to profM2
12.1.1.6.1 Packet CS Pparameters for DSA-REQ-BS Iinitiated
803 12.1.1.6.2 Packet CS Pparameters for DSA-RSP-BS Iinitiated
12.1.1.6.3 Packet CS Parameters for DSC-REQ-BS Initiated
804 12.1.1.6.4 Packet CS Parameters for DSC-RSP-BS Initiated
12.2 WirelessMAN-SCa and WirelessHUMAN(-SCa) system profiles
12.2.3 WirelessMAN-SCa Physical Layer (PHY) Profiles
12.2.3.2 Specific PHY profiles
12.2.3.2.3 WirelessHUMAN-specific PHY profile features
12.2.4 WirelessMAN-SCa RF profiles
12.2.4.3 RF profiles for 10 MHz channelization
12.3 WirelessMAN-OFDM and WirelessHUMAN(-OFDM) system profiles
12.3.1 WirelessMAN-OFDM and WirelessHUMAN(-OFDM) MAC profiles
12.3.1.1 ProfM3_PMP: Basic Packet PMP MAC System Profile
12.3.1.1.2 MAC Management Message Parameter Transmission Order
805 12.3.1.2 ProfM3_Mesh: Basic Packet Mesh MAC system profile
12.3.2 WirelessMAN-OFDM and WirelessHUMAN(-OFDM) Physical Layer Profiles
12.3.2.4 ProfP3_3: WirelessMAN-OFDM PHY profile for 3 MHz channelization
806 12.3.2.5 ProfP3_5.5: WirelessMAN-OFDM PHY profile for 5.5 MHz channelization
12.3.2.6 profP3_10: WirelessHUMAN(-OFDM) PHY profile for 10 MHz channelization
12.3.3 WirelessMAN-OFDM RF profiles
807 12.4 WirelessMAN-OFDMA and WirelessHUMAN(-OFDMA) system profiles
12.4.2 WirelessMAN-OFDMA and WirelessHUMAN(-OFDMA) MAC Pprofiles
12.4.2.1 Basic Ppacket PMP MAC Pprofile
12.4.2.1.1 Conventions for MAC Mmanagement Mmessages
12.4.2.1.2 MAC Mmanagement Mmessage Pparameter Ttransmission Oorder
808 12.4.3 WirelessMAN-OFDMA and WirelessHUMAN(-OFDMA) System PHY Pprofiles
12.4.3.1 Common Ffeatures of PHY Pprofiles
12.4.3.1.4 WirelessHUMAN PHY Pprofiles Ffeatures
12.4.3.1.5 Minimum performance requirements
810 12.4.3.2 WirelessMAN-OFDMA 1.25 MHz channel basic PHY Pprofile
811 12.4.3.3 WirelessMAN-OFDMA 3.5 MHz channel basic PHY Pprofile
12.4.3.4 WirelessMAN-OFDMA 7 MHz channel basic PHY Pprofile
812 12.4.3.5 WirelessMAN-OFDMA 8.75 MHz channel basic PHY Pprofile
12.4.3.6 WirelessMAN-OFDMA 14 MHz channel basic PHY Pprofile
813 12.4.3.7 WirelessMAN-OFDMA 17.5 MHz channel basic PHY Pprofile
12.4.3.8 WirelessMAN-OFDMA 28 MHz channel basic PHY Pprofile
12.4.3.9 WirelessHUMAN(-OFDMA) 10 MHz channel basic PHY Pprofile
12.4.3.10 WirelessHUMAN(-OFDMA) 20 MHz channel basic PHY Pprofile
12.4.4 WirelessMAN-OFDMA RF profiles
815 Annex A (informative) – Bibliography
817 Annex B (informative) – Supporting material for frequencies below 11 GHz
B.1 Targeted frequency bands
B.2 License-exempt co-existence and interference analyses
B.3 Performance characteristics
B.3.2 WirelessMAN-OFDM/OFDMA PHY symbol and performance parameters
819 Annex C (informative) – Example MAC common part sublayer service definition
C.1 MAC service definition
C.1.1 MAC service definition for PMP
C.1.1.1 Primitives
C.1.1.1.1 MAC_CREATE_SERVICE FLOW.request
821 Annex D (informative) – Messages sequence chart (MSCs)
D.1 Handover MSCs
D.1.1 Neighbor BS advertisement and scanning
828 D.2 Sleep mode MSCs
831 Annex E (informative) – Block diagrams
E.1 Handover block diagrams
E.1.1 Handover initiated by Mobile Station
834 E.1.2 Handover initiated by Base Station
837 Annex F (informative) – Test vectors
F.1 Cryptographic method test vectors
F.1.1 AES CTR Mode Known Answer Test for Variable Text
F.1.1.1 TEST vector
F.1.1.1.1 Test 1
838 F.1.1.1.2 Test 2
840 F.1.1.1.3 Test 3
847 F.1.1.1.4 Test Program
856 F.2 Test vectors for CRC16 CCITT X.25
857 Annex G (informative) – Network model for mobile communications
G.1 Network reference model
G.1.1 Entities
861 Annex H (informative) – LDPC direct encoding
H.1 Method 1a
862 H.2 Method 1b
863 H.3 Method 2
864 H.4 Encoding procedure

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IEEE 802.16e-2005
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