IEEE 802.16.1 2012

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IEEE Standard for WirelessMAN-Advanced Air Interface for Broadband Wireless Access Systems

Published By	Publication Date	Number of Pages
IEEE	2012	1090

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Description

New IEEE Standard – Active. The WirelessMAN-Advanced Air Interface, an enhanced air interface designated as IMT-Advanced by the International Telecommunication Union–Radiocommunication Sector (ITU-R), is specified in this standard.

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std 802.16.1-2012 Front Cover
3	Title Page
6	Notice to users Laws and regulations Copyrights Updating of IEEE documents Errata
7	Patents
8	Participants
9	Historical information regarding IEEE Std 802.16.1
14	Introduction
15	Contents
29	Figures
35	Tables
43	Important Notice 1. Overview 1.1 Scope 1.2 Purpose 1.3 Frequency bands
44	1.3.1 Frequencies below 11 GHz 1.4 Reference models
45	1.4.1 IEEE 802.16.1 entity 1.4.2 Network reference model 1.4.2.1 AMS and ABS interface 1.4.2.2 IEEE 802.16 entity to NCMS interface
46	1.4.3 Management SAP (M-SAP) 1.4.4 Control SAP (C-SAP)
47	2. Normative references
49	3. Definitions
53	4. Abbreviations and acronyms
59	5. Service-specific CS 5.1 ATM CS 5.2 Packet CS 5.2.1 MAC SDU format
60	5.2.2 Classification
62	5.2.3 Payload header suppression (PHS) 5.2.3.1 PHS operation
65	5.2.3.2 PHS signaling
66	5.2.4 IEEE 802.3/Ethernet-specific part 5.2.4.1 IEEE 802.3/Ethernet CS PDU format
67	5.2.4.2 IEEE 802.3/Ethernet CS classification rules 5.2.5 IP specific part 5.2.5.1 IP CS PDU format
69	5.2.5.2 IP classification rules 5.2.6 Support for multiple protocols on the same flow
71	6. WirelessMAN-Advanced Air Interface 6.1 Introduction 6.1.1 AMS operational states
72	6.2 Medium access control 6.2.1 Addressing 6.2.1.1 Global address 6.2.1.1.1 MAC address
73	6.2.1.2 Logical identifiers 6.2.1.2.1 Station identifier (STID) 6.2.1.2.1.1 Temporary station identifier (TSTID) 6.2.1.2.2 Flow identifier (FID)
74	6.2.1.2.3 Deregistration identifier (DID) 6.2.1.2.4 Context retention identifier (CRID) 6.2.1.2.5 E-MBS identifier 6.2.1.2.6 Multicast Group identifier 6.2.2 MAC PDU formats
75	6.2.2.1 MAC header formats 6.2.2.1.1 Advanced generic MAC header (AGMH) 6.2.2.1.2 Short-packet MAC header (SPMH)
76	6.2.2.1.3 MAC signaling header
77	6.2.2.1.3.1 Bandwidth request (BR) with STID header
78	6.2.2.1.3.2 Bandwidth request (BR) without STID header 6.2.2.1.3.3 Service-specific scheduling control header (SSSCH)
80	6.2.2.1.3.4 Sleep Control header (SCH)
82	6.2.2.1.3.5 AMS Battery Level Report header
83	6.2.2.1.3.6 Uplink Power Status Report header
84	6.2.2.1.3.7 Correlation Matrix Feedback header (CMFH)
85	6.2.2.1.3.8 MIMO feedback header (MFH)
87	6.2.2.1.3.9 Grant management header (GMH)
89	6.2.2.2 Extended header group formats
90	6.2.2.2.1 MAC SDU Fragmentation Extended header (FEH)
92	6.2.2.2.2 MAC SDU Packing Extended header (PEH)
93	6.2.2.2.3 MAC Control Extended header (MCEH)
94	6.2.2.2.4 Multiplexing Extended header (MEH)
95	6.2.2.2.5 MAC Control ACK Extended header (MAEH)
96	6.2.2.2.6 Piggybacked Bandwidth Request Extended header (PBREH) 6.2.2.2.7 Rearrangement Fragmentation and Packing Extended header (RFPEH)
98	6.2.2.2.8 ARQ Feedback Polling Extended header (APEH) 6.2.2.2.9 Advanced Relay Forwarding Extended header (ARFEH) 6.2.3 MAC Control messages
104	6.2.3.1 AAI-RNG-REQ
112	6.2.3.2 AAI-RNG-RSP
123	6.2.3.3 AAI-RNG-ACK
128	6.2.3.4 AAI-RNG-CFM
129	6.2.3.5 AAI-SBC-REQ
132	6.2.3.6 AAI-SBC-RSP
136	6.2.3.7 AAI-SON-ADV message
138	6.2.3.8 AAI-REG-REQ
143	6.2.3.9 AAI-REG-RSP
147	6.2.3.10 AAI-HO-IND
149	6.2.3.11 AAI-HO-REQ
150	6.2.3.12 AAI-HO-CMD
157	6.2.3.13 AAI-NBR-ADV
163	6.2.3.14 AAI-SCN-REQ
166	6.2.3.15 AAI-SCN-RSP
171	6.2.3.16 AAI-SCN-REP
176	6.2.3.17 AAI-CLC-REQ (Co-Located Coexistence Request)
181	6.2.3.18 AAI-CLC-RSP (Co-Located Coexistence Response)
182	6.2.3.19 AAI-FFR-CMD (FFR Command) message 6.2.3.20 AAI-FFR-REP (FFR report) message
185	6.2.3.21 AAI-DREG-REQ message
188	6.2.3.22 AAI-DREG-RSP message
192	6.2.3.23 AAI-PAG-ADV (paging advertisement) message
194	6.2.3.24 PGID-Info (paging group information) message
195	6.2.3.25 AAI-SLP-REQ
199	6.2.3.26 AAI-SLP-RSP
203	6.2.3.27 AAI-TRF-IND
206	6.2.3.28 AAI-TRF-IND-REQ
207	6.2.3.29 AAI-TRF-IND-RSP
208	6.2.3.30 L2 Transfer message (AAI-L2-XFER)
210	6.2.3.31 AAI-System Configuration Descriptor (SCD) message
217	6.2.3.32 AAI-UL Noise and Interference Level Broadcast message
218	6.2.3.33 AAI-UL-POWER-ADJ message
219	6.2.3.34 AAI-Uplink Power Status Reporting Configuration (AAI-UL-PSR-CFG) message
220	6.2.3.35 AAI-DL-IM message
222	6.2.3.36 AAI-MSG-ACK 6.2.3.37 AAI-SBS-MIMO-FBK
226	6.2.3.38 AAI-MBS-MIMO-FBK
228	6.2.3.39 AAI-MBS-MIMO-REQ
230	6.2.3.40 AAI-MBS-MIMO-RSP
231	6.2.3.41 AAI-MBS-SOUNDING-CAL
232	6.2.3.42 AAI-MBS-SBP 6.2.3.43 Privacy key MAC Control messages (AAI-PKM-REQ/AAI-PKM-RSP)
236	6.2.3.43.1 PKMv3 Reauth-Request message
237	6.2.3.43.2 PKMv3 EAP-Transfer message 6.2.3.43.3 PKMv3 Key_Agreement-MSG#1 message
238	6.2.3.43.4 PKMv3 Key_Agreement-MSG#2 message
239	6.2.3.43.5 PKMv3 Key_Agreement-MSG#3 message
240	6.2.3.43.6 PKMv3 TEK-Request message
241	6.2.3.43.7 PKMv3 TEK-Reply message
242	6.2.3.43.8 PKMv3 TEK-Invalid message 6.2.3.44 AAI-ARQ-Feedback message
245	6.2.3.45 AAI-ARQ-Discard message 6.2.3.46 AAI-ARQ-Reset message
246	6.2.3.47 DSx MAC Control message 6.2.3.47.1 AAI-DSA-REQ
263	6.2.3.47.2 AAI-DSA-RSP
269	6.2.3.47.3 AAI-DSA-ACK
270	6.2.3.47.4 AAI-DSC-REQ
284	6.2.3.47.5 AAI-DSC-RSP
288	6.2.3.47.6 AAI-DSC-ACK 6.2.3.47.7 AAI-DSD-REQ
292	6.2.3.47.8 AAI-DSD-RSP
295	6.2.3.48 Group Configuration MAC Control message (AAI-GRP-CFG)
297	6.2.3.49 AAI-RES-CMD (Reset command) 6.2.3.50 AAI-SII-ADV (Service Identity information)
298	6.2.3.51 AAI-MC-REQ (Multicarrier Request) message
300	6.2.3.52 AAI-MC-RSP (Multicarrier Response) message
301	6.2.3.53 Carrier Management Command (AAI-CM-CMD) MAC control message
305	6.2.3.54 Carrier Management Indication (AAI-CM-IND) MAC control message
306	6.2.3.55 AAI-MC-ADV (Multicarrier Advertisement) message
310	6.2.3.56 AAI-Global-CFG (global carrier configuration) message
311	6.2.3.57 AAI-ARS-CONFIG-CMD message format
314	6.2.3.58 AAI-ARS-ESI message
315	6.2.3.59 AAI-E-MBS-REP
316	6.2.3.60 AAI-E-MBS-RSP
317	6.2.3.61 AAI-E-MBS-CFG message
321	6.2.3.62 AAI-LBS-ADV message
323	6.2.3.63 AAI-LBS-IND message
325	6.2.4 Construction and transmission of MAC PDUs
328	6.2.4.1 Convention 6.2.4.2 Multiplexing
329	6.2.4.3 Concatenation 6.2.4.4 Fragmentation
330	6.2.4.4.1 Transport connections 6.2.4.4.1.1 Non-ARQ transport connections 6.2.4.4.1.2 ARQ-enabled transport connections 6.2.4.4.2 Control connections 6.2.4.5 Packing
331	6.2.4.5.1 Packing for non-ARQ connections
333	6.2.4.5.2 Packing for ARQ connections 6.2.4.6 Encryption of MAC PDUs
334	6.2.4.7 Padding 6.2.4.8 MAC control messages with CMAC protection
336	6.2.5 AAI Security 6.2.5.1 Security architecture
337	6.2.5.2 Key Management protocol (PKMv3) 6.2.5.2.1 Key management
338	6.2.5.2.1.1 Key derivation 6.2.5.2.1.1.1 PMK derivation 6.2.5.2.1.1.2 AK derivation
339	6.2.5.2.1.1.2.1 AK_COUNT management 6.2.5.2.1.1.2.2 Maintenance of AK_COUNTM by the AMS
340	6.2.5.2.1.1.2.3 AK_COUNT LOCK state 6.2.5.2.1.1.2.4 Processing of AK_COUNTB by the ABS
343	6.2.5.2.1.1.3 CMAC key derivation 6.2.5.2.1.1.4 TEK derivation
344	6.2.5.2.1.2 Key hierarchy
345	6.2.5.2.1.3 Maintenance of PMK and AK, PMK and AK switching methods 6.2.5.2.1.4 Key agreement 3-way handshake after (re)authentication
348	6.2.5.2.1.5 Key usage 6.2.5.2.1.5.1 TEK usage 6.2.5.2.1.5.2 TEK update
349	6.2.5.2.1.5.3 TEK update after full reauthentication
350	6.2.5.2.1.5.4 Key update during handover
351	6.2.5.2.1.5.5 Key usage during location update and network reentry from idle mode 6.2.5.2.1.5.6 Key update during zone switching from LZone to MZone
352	6.2.5.2.1.5.7 Key update during zone switch from MZone to LZone 6.2.5.2.2 SA management
353	6.2.5.2.2.1 Mapping of flows to SAs
354	6.2.5.2.2.2 Mapping of flows to SAs during zone switching 6.2.5.2.3 Cryptographic methods 6.2.5.2.3.1 Payload encryption methods
355	6.2.5.2.3.1.1 AES-CCM
357	6.2.5.2.3.1.2 AES-CTR 6.2.5.2.3.2 Calculation of cipher-based message authentication code (CMAC)
358	6.2.5.2.4 AMS authentication state machine
361	6.2.5.2.4.1 States
362	6.2.5.2.4.2 Messages
363	6.2.5.2.4.3 Events
364	6.2.5.2.4.4 Parameters 6.2.5.2.4.5 Actions
367	6.2.5.2.5 TEK state machine
369	6.2.5.2.5.1 States
370	6.2.5.2.5.2 Messages 6.2.5.2.5.3 Events 6.2.5.2.5.4 Parameters
371	6.2.5.2.5.5 Actions 6.2.5.3 Privacy 6.2.5.3.1 AMS identity privacy
372	6.2.5.3.2 AMS location privacy
373	6.2.5.3.3 Control plane signaling protection
374	6.2.5.4 Security context 6.2.5.4.1 MSK context
375	6.2.5.4.2 PMK context
376	6.2.5.4.3 AK context
377	6.2.5.4.4 SA context
378	6.2.5.4.4.1 TEK context 6.2.5.4.4.2 SA Context
379	6.2.6 MAC HO procedures 6.2.6.1 Network topology acquisition 6.2.6.1.1 Network topology advertisement 6.2.6.1.2 AMS scanning of neighbor ABSs
380	6.2.6.2 Trigger condition definitions
384	6.2.6.3 HO procedure 6.2.6.3.1 HO Framework
385	6.2.6.3.2 HO decision and initiation 6.2.6.3.3 HO preparation
386	6.2.6.3.4 HO execution
387	6.2.6.3.5 Network reentry 6.2.6.3.5.1 CDMA-based HO ranging procedure
389	6.2.6.3.5.2 Network reentry procedure
393	6.2.6.3.6 HO cancellation 6.2.6.3.7 Drops during HO 6.2.6.4 Handover between WirelessMAN-Advanced Air Interface and reference systems 6.2.6.4.1 Handover from WirelessMAN-OFDMA R1 Reference System to advanced system 6.2.6.4.1.1 Network Topology acquisition 6.2.6.4.1.1.1 Network Topology advertisement
394	6.2.6.4.1.1.2 AMS scanning 6.2.6.4.1.2 Handover procedure 6.2.6.4.1.2.1 Zone switch based handover procedure
397	6.2.6.4.1.2.2 Direct handover procedure
398	6.2.6.4.1.3 Context mapping 6.2.6.4.1.3.1 MAC identifiers 6.2.6.4.2 Handover from WirelessMAN-Advanced Air Interface System to WirelessMAN- OFDMA R1 Reference System 6.2.6.4.2.1 Network topology acquisition 6.2.6.4.2.1.1 Network topology advertisement 6.2.6.4.2.1.2 AMS scanning
399	6.2.6.4.2.2 Handover procedure 6.2.6.4.2.3 Context mapping 6.2.6.4.2.3.1 MAC identifiers 6.2.6.4.2.4 Handover from WirelessMAN-Advanced Air Interface-Only System to WirelessMAN-OFDMA R1 Reference System
400	6.2.6.4.2.5 Zone switch from MZone to LZone 6.2.6.5 Handover between WirelessMAN-Advanced Air Interface System and other RAT systems 6.2.6.5.1 Inter-RAT capability negotiation 6.2.6.5.2 Inter-RAT handover procedure 6.2.6.5.2.1 Network topology acquisition
401	6.2.6.5.2.1.1 Passive other RAT discovery 6.2.6.5.2.1.2 Active other RAT discovery 6.2.6.5.2.1.2.1 Active other RAT discovery with MIHF support
402	6.2.6.5.2.1.2.2 Active other RAT discovery using AAI scanning 6.2.6.5.2.1.2.3 Generic active network discovery and selection procedure
403	6.2.6.5.2.2 Generic inter-RAT HO procedure 6.2.6.5.2.2.1 Generic other RAT MAC container 6.2.6.5.2.2.2 Measurements
404	6.2.6.5.2.2.2.1 Scanning 6.2.6.5.2.2.2.2 Measurement parameters 6.2.6.5.2.2.2.3 Measurement reporting 6.2.6.5.2.3 Enhanced inter-RAT HO procedure 6.2.6.5.2.3.1 Dual-transmitter/dual-receiver support 6.2.6.5.2.3.2 Single-transmitter support
405	6.2.6.5.2.3.2.1 Handover execution and completion 6.2.7 Persistent scheduling in the Advanced Air Interface 6.2.7.1 Allocation mechanism
406	6.2.7.2 Deallocation mechanism 6.2.7.3 HARQ retransmissions 6.2.7.4 Error handling procedure
407	6.2.8 Multicarrier operation 6.2.8.1 Multicarrier types and operational modes
408	6.2.8.2 MAC operation 6.2.8.2.1 Addressing
409	6.2.8.2.2 Security 6.2.8.2.3 Network entry
410	6.2.8.2.3.1 AMSs obtaining MC configuration
411	6.2.8.2.3.2 Secondary carrier assignment 6.2.8.2.4 Ranging 6.2.8.2.5 MAC PDU processing
412	6.2.8.2.6 Bandwidth request and resource allocation 6.2.8.2.6.1 Bandwidth request 6.2.8.2.6.2 Resource allocation 6.2.8.2.7 QoS and connection management 6.2.8.2.8 DL/UL PHY level control and UL feedback channel allocation
413	6.2.8.2.8.1 Carrier-specific PHY control mode 6.2.8.2.9 Handover
414	6.2.8.2.9.1 Network topology acquisition 6.2.8.2.9.1.1 Network topology advertisement 6.2.8.2.9.1.2 AMS scanning of target carriers
416	6.2.8.2.9.2 Multicarrier handover (MCHO) procedure 6.2.8.2.9.2.1 MCHO preparation
417	6.2.8.2.9.2.2 MCHO execution and network reentry with HO_Reentry_Mode = 1
418	6.2.8.2.9.2.3 HO with secondary carrier preassignment
419	6.2.8.2.10 Power management 6.2.8.2.10.1 Sleep mode
420	6.2.8.2.10.2 Idle mode
421	6.2.8.2.11 Carrier management 6.2.8.2.11.1 Secondary carrier activation/deactivation
424	6.2.8.2.11.2 Primary Carrier Change
426	6.2.8.2.11.3 Primary to secondary carrier switching 6.2.9 Group Resource Allocation 6.2.9.1 Grouping mechanism 6.2.9.2 Group configuration
428	6.2.9.3 Group management 6.2.9.3.1 Addition of an AMS to a group 6.2.9.3.1.1 ABS operation 6.2.9.3.1.2 AMS operation 6.2.9.3.2 Deletion of a flow from a group
429	6.2.9.3.2.1 ABS operation 6.2.9.3.2.2 AMS operation 6.2.9.4 Normal GRA operation
430	6.2.9.4.1 Bitmaps in group resource allocation
433	6.2.10 Connection management 6.2.10.1 Control connections 6.2.10.2 Transport connections
434	6.2.11 Bandwidth request and allocation mechanism 6.2.11.1 Bandwidth request 6.2.11.1.1 Contention-based random access bandwidth request
437	6.2.11.1.2 Standalone bandwidth request header
438	6.2.11.1.3 Piggybacked bandwidth request 6.2.11.1.4 Bandwidth request using P-FBCH 6.2.11.1.4.1 BR indication flag feedback 6.2.11.1.4.2 ertPS/aGP service BR
439	6.2.11.1.5 Bandwidth request message format 6.2.11.1.5.1 Quick access message format 6.2.11.1.5.2 Bandwidth Request header format
440	6.2.11.1.5.3 Piggyback Bandwidth Request Extended header format 6.2.12 Quality of service (QoS) 6.2.12.1 Theory of operation 6.2.12.2 Service flows
443	6.2.12.3 Object model
444	6.2.12.4 Service classes
445	6.2.12.4.1 Global Service classes
448	6.2.12.5 Authorization
449	6.2.12.6 Service flow management
450	6.2.12.6.1 Dynamic service flow creation
451	6.2.12.6.2 Dynamic service flow modification and deletion 6.2.12.7 Scheduling services 6.2.12.7.1 Adaptive granting and polling service
455	6.2.12.7.1.1 Handover support 6.2.12.8 Emergency and NS/EP service flows 6.2.12.9 Emergency and NS/EP service notification during initial ranging
456	6.2.12.10 Emergency and NS/EP service notification during connected state 6.2.12.11 Emergency Alert Service 6.2.12.12 Service flow/convergence sublayer parameters
467	6.2.12.12.1 FID 6.2.12.12.2 Uplink/Downlink indicator 6.2.12.12.3 Differentiated BR timer 6.2.12.12.4 Predefined BR index parameter
468	6.2.12.12.5 Coupled Group Create/Change 6.2.12.12.5.1 Qty Coupled SFID request 6.2.12.12.6 Group Parameter Create/Change 6.2.12.12.6.1 Qty SFID request 6.2.12.12.7 HARQ channel mapping 6.2.12.12.8 Vendor-specific information
469	6.2.12.12.8.1 Vendor-specific classification parameters 6.2.12.12.8.2 Vendor-specific PHS parameters 6.2.12.12.8.3 Vendor-specific QoS parameters 6.2.13 ARQ mechanism 6.2.13.1 ARQ block usage 6.2.13.1.1 Initial transmission
470	6.2.13.1.2 Retransmission
471	6.2.13.2 ARQ feedback 6.2.13.2.1 ARQ feedback transmission
472	6.2.13.2.2 ARQ feedback poll 6.2.13.2.3 ARQ feedback triggering conditions 6.2.13.3 ARQ parameters and timers 6.2.13.3.1 ARQ_SN_MODULUS 6.2.13.3.2 ARQ_WINDOW_SIZE 6.2.13.3.3 ARQ_SUB_BLOCK_SIZE 6.2.13.3.4 ARQ_BLOCK_LIFETIME 6.2.13.3.5 ARQ_RX_PURGE_TIMEOUT 6.2.13.3.6 ARQ_MAX_ BUFFER_SIZE
473	6.2.13.3.7 ARQ_SYNC_LOSS_TIMEOUT 6.2.13.3.8 ARQ_ERROR_DETECTION_TIMEOUT 6.2.13.3.9 ARQ_FEEDBACK_POLL_RETRY_TIMEOUT 6.2.13.4 ARQ state machine variables 6.2.13.4.1 ARQ_TX_WINDOW_START 6.2.13.4.2 ARQ_TX_NEXT_SN 6.2.13.4.3 ARQ_RX_WINDOW_START 6.2.13.4.4 ARQ_RX_HIGHEST_SN 6.2.13.5 ARQ operation 6.2.13.5.1 Sequence number comparison
474	6.2.13.5.2 Transmitter operation 6.2.13.5.2.1 ARQ block state machine
475	6.2.13.5.2.2 ARQ subblock state machine
476	6.2.13.5.2.3 ARQ feedback processing 6.2.13.5.3 Receiver operation 6.2.13.5.3.1 Receiver state machine
477	6.2.13.5.3.2 Error detection and ARQ feedback generation 6.2.13.5.3.3 ARQ discard message reception 6.2.13.5.3.4 ARQ block purge procedure 6.2.13.5.3.5 SDU reconstruction and in-order delivery
478	6.2.13.5.4 ARQ reset procedure
481	6.2.13.5.5 ARQ synchronization loss 6.2.13.5.6 ARQ buffer management 6.2.14 HARQ functions 6.2.14.1 HARQ subpacket generation and transmission
482	6.2.14.2 Generic HARQ signaling and timing 6.2.14.2.1 HARQ signaling 6.2.14.2.1.1 Downlink 6.2.14.2.1.2 Uplink
483	6.2.14.2.1.3 DL HARQ buffering capability
484	6.2.14.2.1.4 UL HARQ buffering capability 6.2.14.2.2 A-MAP relevance and HARQ timing 6.2.14.2.2.1 FDD 6.2.14.2.2.1.1 Downlink
486	6.2.14.2.2.1.2 Uplink
488	6.2.14.2.2.2 TDD 6.2.14.2.2.2.1 Downlink
490	6.2.14.2.2.2.2 Uplink
492	6.2.14.2.2.2.3 HARQ timing in frame structure supporting the WirelessMAN-OFDMA R1 Reference System frames
495	6.2.14.3 Group resource allocation HARQ signaling and timing 6.2.14.3.1 Downlink
496	6.2.14.3.2 Uplink 6.2.14.4 Persistent allocation HARQ signaling and timing 6.2.14.4.1 Downlink 6.2.14.4.2 Uplink 6.2.14.5 HARQ and ARQ interactions
497	6.2.14.6 Combined feedback scheme for ROHC and HARQ 6.2.15 Network entry and initialization
501	6.2.15.1 AMS DL PHY synchronization 6.2.15.2 AMS obtaining DL/UL parameters 6.2.15.3 Initial ranging and automatic adjustments
503	6.2.15.4 Basic capability negotiation
504	6.2.15.5 AMS authorization and key exchange 6.2.15.6 Registration
506	6.2.16 Periodic ranging
507	6.2.17 Sleep mode
508	6.2.17.1 Sleep mode initiation 6.2.17.2 Sleep mode operation 6.2.17.2.1 Sleep cycle operations
510	6.2.17.2.2 Sleep window operations 6.2.17.2.3 Listening window operations 6.2.17.2.3.1 Traffic indication
511	6.2.17.2.3.2 Listening window extension
513	6.2.17.2.4 Sleep mode parameter update
514	6.2.17.2.5 FFBCH operation during sleep mode 6.2.17.2.6 Interruptions to normal sleep cycle operation 6.2.17.2.6.1 Sleep cycle operation during control signaling transactions
515	6.2.17.2.6.2 Sleep operation with reception of broadcast/multicast transmissions 6.2.17.3 Sleep mode termination 6.2.18 Idle mode
516	6.2.18.1 Idle mode initiation 6.2.18.1.1 AMS initiated
518	6.2.18.1.2 ABS initiated
523	6.2.18.2 Operation during idle mode 6.2.18.2.1 Operation during paging unavailable interval
524	6.2.18.2.2 Broadcast paging message
525	6.2.18.2.3 Operation during paging listening interval
526	6.2.18.3 Idle mode termination 6.2.18.4 Location update 6.2.18.4.1 Location update trigger conditions
527	6.2.18.4.1.1 Paging group-based update 6.2.18.4.1.2 Timer-based update 6.2.18.4.1.3 Power-down update 6.2.18.4.2 Location update process
528	6.2.18.5 Network reentry from idle mode 6.2.18.6 Idle mode support for MBS 6.2.18.6.1 MBS location update 6.2.19 Deregistration with context retention (DCR) mode
529	6.2.19.1 DCR initiation in connected state 6.2.19.2 DCR mode initiation from idle mode 6.2.19.3 DCR mode extension 6.2.19.4 Network reentry from DCR mode
530	6.2.19.5 DCR mode termination 6.2.20 Co-located coexistence (CLC)
534	6.2.20.1 Type I CLC class
535	6.2.20.2 Type II CLC class
536	6.2.20.2.1 Type II CLC class—Subtype 1 6.2.20.2.2 Type II CLC class—Subtype 2
537	6.2.20.2.3 Type II CLC class—Subtype 3 6.2.20.3 Type III CLC class
538	6.2.21 Interference mitigation mechanism 6.2.21.1 DL FFR
539	6.2.21.1.1 DL/UL signaling
541	6.2.21.1.2 Operation procedure 6.2.21.1.2.1 Broadcast and update of DL FFR information by ABS 6.2.21.1.2.2 Feedback of preferred frequency partition by AMS
542	6.2.21.1.2.3 Initial frequency partition at system entry 6.2.21.1.2.4 Frequency partition selection by the AMS in case of DLRU or NLRU
543	6.2.21.1.2.5 Subband partition selection by the AMS in case of SLRU 6.2.21.2 UL FFR
545	6.2.21.3 FFR partition configuration 6.2.22 MAC control reliability
546	6.2.23 Power management for the active mode 6.2.24 Update of S-SFH IEs
549	6.2.25 Short message service
550	6.2.26 Coverage loss detection and recovery from coverage loss 6.2.26.1 Coverage loss detection at ABS and ABS’s behavior
551	6.2.26.2 Coverage loss detection at AMS and AMS’s behavior 6.2.26.3 Coverage loss recovery procedure 6.2.26.4 Recovery from coverage loss due to the ABS restart
552	6.2.27 AMS deregistration 6.2.28 Support for multicast service 6.2.28.1 Multicast operation 6.2.28.2 Multicast connection establishment
553	6.2.28.3 Multicast operation in connected state
555	6.3 Physical layer 6.3.1 Introduction 6.3.2 OFDMA symbol description, symbol parameters, and transmitted signal 6.3.2.1 Time domain description 6.3.2.2 Frequency domain description 6.3.2.3 Primitive parameters
556	6.3.2.4 Derived parameters
557	6.3.2.5 Transmitted signal
559	6.3.2.6 Definition of basic terms on the transmission chain 6.3.3 Frame structure 6.3.3.1 Basic frame structure 1) Type 1 AAI subframe that consists of six OFDMA symbols. 3) Type 3 AAI subframe that consists of five OFDMA symbols. 4) Type 4 AAI subframe that consists of nine OFDMA symbols. This type shall be applied only to a UL AAI subframe for the 8.75 MHz channel bandwidth when supporting the WirelessMAN- OFDMA R1 Reference System frames.
562	6.3.3.2 Frame structure for CP = 1/8 Tb 6.3.3.2.1 FDD frame structure
564	6.3.3.2.2 TDD frame structure
566	6.3.3.3 Frame structure for CP = 1/16 Tb
569	6.3.3.4 Frame structure for CP = 1/4 Tb
572	6.3.3.5 Frame structure supporting the WirelessMAN-OFDMA R1 Reference System 6.3.3.5.1 TDD frame structure
575	6.3.3.5.2 FDD frame structure
576	6.3.3.6 Frame structure supporting wider bandwidth
577	6.3.3.6.1 Support for WirelessMAN-OFDMA R1 Reference System with multicarrier operation
578	6.3.3.6.2 Subcarrier alignment for multicarrier operation
580	6.3.3.6.3 Data transmission over guard subcarriers in multicarrier operation 6.3.3.7 Set of frame configurations
583	6.3.4 Downlink physical structure
584	6.3.4.1 Physical and logical resource unit 6.3.4.1.1 Distributed logical resource unit 6.3.4.1.2 Contiguous logical resource unit 6.3.4.2 Multi-cell resource mapping 6.3.4.2.1 Subband partitioning
588	6.3.4.2.2 Miniband permutation
590	6.3.4.2.3 Frequency partitioning
594	6.3.4.3 Cell-specific resource mapping
595	6.3.4.3.1 CRU/DRU allocation
600	6.3.4.3.2 Subcarrier permutation
603	6.3.4.3.3 Random sequence generation 6.3.4.3.4 A-MAP symbols to subcarrier pair mapping 6.3.4.3.5 Logical resource unit mapping
604	6.3.4.4 Pilot structure 6.3.4.4.1 Pilot patterns
612	6.3.4.4.2 MIMO midamble
614	6.3.4.4.3 Usage of downlink pilots
615	6.3.4.4.4 E-MBS zone-specific pilot patterns
617	6.3.4.5 Downlink physical structure for multicarrier support
618	6.3.4.6 Downlink physical structure for E-MBS support
619	6.3.5 Downlink control structure 6.3.5.1 Advanced Preamble
620	6.3.5.1.1 Primary Advanced Preamble (PA-Preamble)
622	6.3.5.1.2 Secondary advanced preamble (SA-Preamble)
644	6.3.5.2 DL control channels 6.3.5.2.1 Superframe header
645	6.3.5.2.1.1 Primary Superframe header 6.3.5.2.1.2 Secondary Superframe header
647	6.3.5.2.2 Advanced MAP (A-MAP)
648	6.3.5.2.2.1 Non-user-specific A-MAP 6.3.5.2.2.2 HARQ Feedback A-MAP 6.3.5.2.2.3 Power Control A-MAP 6.3.5.2.2.4 Assignment A-MAP
650	6.3.5.2.3 Enhanced multicast broadcast service MAP (E-MBS MAP)
651	6.3.5.3 Resource mapping of DL control channels 6.3.5.3.1 Superframe header 6.3.5.3.1.1 Primary Superframe header 6.3.5.3.1.2 Secondary Superframe header
652	6.3.5.3.2 Advanced MAP (A-MAP) 6.3.5.3.2.1 Non-user-specific A-MAP 6.3.5.3.2.2 HARQ feedback A-MAP
654	6.3.5.3.2.3 Power Control A-MAP
655	6.3.5.3.2.4 Assignment A-MAP
656	6.3.5.3.3 Enhanced-Multicast Broadcast Services MAP (E-MBS MAP) 6.3.5.4 Downlink power control 6.3.5.4.1 Power control for A-MAP
657	6.3.5.5 DL control information elements 6.3.5.5.1 SFH control information elements 6.3.5.5.1.1 P-SFH IE
658	6.3.5.5.1.2 S-SFH IE
669	6.3.5.5.2 A-MAP control information elements 6.3.5.5.2.1 Non-user-specific A-MAP IE
673	6.3.5.5.2.2 HARQ Feedback A-MAP IE 6.3.5.5.2.3 Power Control A-MAP IE
674	6.3.5.5.2.4 Assignment A-MAP IE
676	6.3.5.5.2.4.1 DL basic assignment A-MAP IE
683	6.3.5.5.2.4.2 UL basic assignment A-MAP IE
687	6.3.5.5.2.4.3 DL Subband Assignment A-MAP IE
696	6.3.5.5.2.4.4 UL Subband Assignment A-MAP IE
697	6.3.5.5.2.4.5 Feedback Allocation A-MAP IE
704	6.3.5.5.2.4.6 UL Sounding Command A-MAP IE
706	6.3.5.5.2.4.7 CDMA Allocation A-MAP IE
708	6.3.5.5.2.4.8 DL persistent allocation A-MAP IE
711	6.3.5.5.2.4.9 UL persistent allocation A-MAP IE
714	6.3.5.5.2.4.10 Group resource allocation A-MAP IE
716	6.3.5.5.2.4.11 Feedback Polling A-MAP IE
726	6.3.5.5.2.4.12 BR ACK A-MAP IE
728	6.3.5.5.2.4.13 Broadcast Assignment A-MAP IE
731	6.3.5.5.2.4.14 Extended Assignment A-MAP IE 6.3.5.5.2.4.15 Assignment A-MAP IE segmentation
732	6.3.5.5.3 E-MBS Control Information elements
733	6.3.6 Downlink MIMO 6.3.6.1 Downlink MIMO architecture and data processing 6.3.6.1.1 MIMO layer to MIMO stream mapping
734	6.3.6.1.1.1 SFBC encoding
735	6.3.6.1.1.2 Vertical encoding 6.3.6.1.1.3 Multi-layer encoding 6.3.6.1.1.4 CDR encoding
736	6.3.6.1.2 MIMO stream to antenna mapping 6.3.6.1.2.1 Non-adaptive precoding
739	6.3.6.1.2.2 Adaptive precoding 6.3.6.1.3 Downlink MIMO modes
741	6.3.6.2 Transmission schemes for data channels 6.3.6.2.1 Encoding and precoding of SU-MIMO 6.3.6.2.1.1 Encoding of SU-MIMO modes
742	6.3.6.2.1.2 Precoding of SU-MIMO modes 6.3.6.2.2 Encoding and precoding of MU-MIMO 6.3.6.2.2.1 Encoding of MU-MIMO modes 6.3.6.2.2.2 Precoding of MU-MIMO modes
743	6.3.6.2.3 Mapping of data and pilot subcarriers 6.3.6.2.4 Usage of MIMO modes
744	6.3.6.2.5 Feedback mechanisms and operation 6.3.6.2.5.1 Open-loop region
746	6.3.6.2.5.2 MIMO feedback mode selection 6.3.6.2.5.3 MIMO feedback modes
748	6.3.6.2.5.4 Downlink signaling support of DL-MIMO modes
751	6.3.6.2.5.5 Quantized MIMO feedback for closed-loop transmit precoding
768	6.3.6.2.5.5.1 Transformation codebook based feedback mode
770	6.3.6.2.5.5.2 Differential codebook-based feedback mode
782	6.3.6.2.5.6 Unquantized MIMO feedback for closed-loop transmit precoding
783	6.3.6.3 Transmission schemes for control channels 6.3.6.4 MIMO transmission schemes for E-MBS 6.3.7 Uplink physical structure 6.3.7.1 Physical and logical resource unit
784	6.3.7.1.1 Distributed logical resource unit 6.3.7.1.2 Contiguous logical resource unit 6.3.7.2 Multi-cell resource mapping 6.3.7.2.1 Subband partitioning
788	6.3.7.2.2 Miniband permutation
789	6.3.7.2.3 Frequency partitioning
793	6.3.7.3 Cell-specific resource mapping
794	6.3.7.3.1 CRU/DRU allocation
799	6.3.7.3.2 Tile permutation
801	6.3.7.3.3 Resource allocation and tile permutation for control channels 6.3.7.3.3.1 Bandwidth request channels
802	6.3.7.3.3.2 Feedback channels
804	6.3.7.3.4 Logical resource unit mapping 6.3.7.3.5 WirelessMAN-OFDMA R1 Reference System systems support 6.3.7.3.5.1 Basic symbol structure for FDM based UL PUSC zone support
805	6.3.7.3.5.2 Resource block for FDM based UL PUSC zone support 6.3.7.3.5.3 Subchannelization for FDM based UL PUSC zone support
806	6.3.7.4 Pilot structure
812	6.3.7.5 Uplink physical structure for multicarrier support
813	6.3.8 Uplink control channel 6.3.8.1 Physical uplink control channel 6.3.8.1.1 Fast feedback control channel 6.3.8.1.1.1 Primary fast feedback channel 6.3.8.1.1.2 Secondary fast feedback channel 6.3.8.1.2 HARQ feedback control channel
814	6.3.8.1.3 Sounding channel 6.3.8.1.3.1 Sounding PHY structure 6.3.8.1.4 Ranging channel
815	6.3.8.1.4.1 Ranging channel structure for non-synchronized AMSs
816	6.3.8.1.4.2 Ranging channel structure for synchronized AMSs
817	6.3.8.1.4.3 Ranging channels for FDM-based UL PUSC zone support
819	6.3.8.1.5 Bandwidth request channel 6.3.8.2 Uplink control channels physical resource mapping 6.3.8.2.1 Fast feedback control channel (FFBCH) 6.3.8.2.1.1 Primary fast feedback control channel
822	6.3.8.2.1.2 Secondary fast feedback control channel 6.3.8.2.2 HARQ feedback control channel
823	6.3.8.2.3 Sounding channel 6.3.8.2.3.1 Sounding sequence
825	6.3.8.2.3.2 Multiplexing for multi-antenna and multi-AMS
826	6.3.8.2.4 Ranging channel 6.3.8.2.4.1 Ranging channel for non-synchronized AMSs
829	6.3.8.2.4.2 Ranging channel for synchronized AMSs
831	6.3.8.2.4.3 Ranging channel for FDM-based UL PUSC zone support
833	6.3.8.2.5 Bandwidth request channel
836	6.3.8.3 Uplink control information content
837	6.3.8.3.1 Fast feedback control channel 6.3.8.3.1.1 Primary fast feedback control channel
840	6.3.8.3.1.2 Secondary fast feedback control channel 6.3.8.3.1.3 Channel quality indicator (CQI) definition
845	6.3.8.3.1.4 Representation of subband indices 6.3.8.3.1.5 Feedback formats
856	6.3.8.3.1.6 Operation of EDI for request for switching MFM 6.3.8.3.2 Bandwidth request channel 6.3.8.4 Uplink power control
857	6.3.8.4.1 Power control for data channel 6.3.8.4.2 Power control for control channels
858	6.3.8.4.3 Power correction using PC-A-MAP
859	6.3.8.4.4 Initial ranging channel power control
860	6.3.8.4.5 Sounding channel power control 6.3.8.4.6 Concurrent transmission of uplink control channel and data
861	6.3.8.4.7 Uplink power status reporting 6.3.8.4.7.1 Power status reporting information 6.3.8.4.7.2 Status transmission condition
862	6.3.8.4.8 Uplink power control in initial network entry and reentry
863	6.3.8.4.9 Uplink power control in handover
864	6.3.8.4.10 Uplink power control in multicarrier operation 6.3.8.5 Uplink physical structure for multicarrier support 6.3.9 Uplink MIMO 6.3.9.1 Uplink MIMO architecture and data processing 6.3.9.1.1 MIMO layer to MIMO stream mapping
865	6.3.9.1.1.1 SFBC encoding 6.3.9.1.1.2 Vertical encoding 6.3.9.1.2 MIMO stream to antenna mapping 6.3.9.1.2.1 Non-adaptive precoding
866	6.3.9.1.2.2 Adaptive precoding
867	6.3.9.1.3 Uplink MIMO transmission modes
868	6.3.9.2 Transmission schemes for data channels 6.3.9.2.1 Encoding and precoding of SU-MIMO modes 6.3.9.2.1.1 Encoding of SU-MIMO modes 6.3.9.2.1.2 Precoding of SU-MIMO modes
869	6.3.9.2.2 Encoding and precoding of collaborative spatial multiplexing (MU-MIMO) 6.3.9.2.2.1 Encoding of MU-MIMO modes 6.3.9.2.2.2 Precoding of MU-MIMO modes 6.3.9.2.3 Mapping of data subcarriers 6.3.9.2.4 Usage of MIMO modes 6.3.9.2.5 Downlink signaling support of UL-MIMO modes 6.3.9.2.5.1 Broadcast information
870	6.3.9.3 Codebook for closed-loop transmit precoding 6.3.9.3.1 Base codebook for two transmit antenna 6.3.9.3.1.1 SU-MIMO base codebook
871	6.3.9.3.1.2 MU-MIMO base codebook 6.3.9.3.2 Base codebook for four transmit antennas 6.3.9.3.2.1 SU-MIMO base codebook 6.3.9.3.2.2 MU-MIMO base codebook
877	6.3.9.4 Codebook subsets for open-loop transmit precoding 6.3.9.4.1 OL SU-MIMO subset
878	6.3.9.4.1.1 OL SU-MIMO subset for two transmit antennas 6.3.9.4.1.2 OL SU-MIMO subset for four transmit antennas 6.3.9.4.2 OL MU-MIMO subset 6.3.10 Channel coding and HARQ 6.3.10.1 Channel coding for the data channel 6.3.10.1.1 Burst CRC encoding
879	6.3.10.1.2 Burst partition
882	6.3.10.1.3 Randomization
883	6.3.10.1.4 FEC block CRC encoding 6.3.10.1.5 FEC encoding 6.3.10.1.5.1 Convolutional turbo codes
887	6.3.10.1.6 Bit selection and repetition
888	6.3.10.1.7 Bit collection 6.3.10.1.8 Modulation 6.3.10.2 Channel coding for control channel
889	6.3.10.2.1 TBCC encoder 6.3.10.2.2 Bit separation 6.3.10.2.3 Subblock interleaver
890	6.3.10.2.4 Bit grouping 6.3.10.2.5 Bit selection 6.3.10.3 Subcarrier randomization 6.3.10.3.1 PRBS for subcarrier randomization
891	6.3.10.3.2 Data subcarrier randomization 6.3.10.3.3 Pilot subcarrier randomization
893	6.3.10.4 HARQ 6.3.10.4.1 IR HARQ
894	6.3.10.4.2 Constellation rearrangement
895	6.3.11 Link adaptation 6.3.11.1 DL link adaptation 6.3.11.2 UL link adaptation 6.3.12 Error vector magnitude (EVM) and requirements 6.3.12.1 EVM definition
896	6.3.12.2 EVM requirements 6.3.13 Channel quality measurements 6.3.13.1 Introduction 6.3.13.2 RSSI mean and standard deviation
897	6.3.13.3 CINR mean and variance
898	6.3.13.4 SIR mean
899	6.3.13.5 Downlink noise and interference level mean and variance
900	6.3.14 Receiver requirements
901	6.4 Support for Femto ABS 6.4.1 General description 6.4.2 Femto base station subscription types 6.4.3 Femto ABS state diagram
902	6.4.4 PHY and MAC level identifier 6.4.4.1 PHY level cell identifier 6.4.4.2 CSG white list
903	6.4.5 Femto ABS initialization and de-attachment 6.4.5.1 Femto ABS attachment to the Macro ABS 6.4.5.2 Femto ABS deattachment from network 6.4.6 Network synchronization 6.4.7 Network entry 6.4.7.1 Femto ABS detection, identification, and selection
906	6.4.7.2 Manual Femto ABS selection 6.4.7.3 Femto ABS access restrictions 6.4.7.4 Ranging 6.4.7.4.1 Ranging channel configuration 6.4.7.4.2 Ranging channel transmission
907	6.4.7.5 Femto ABS reselection by the AMS
908	6.4.8 Handover (HO) 6.4.8.1 Network topology acquisition 6.4.8.1.1 Network topology advertisement 6.4.8.1.2 AMS scanning neighbor Femto ABSs
909	6.4.8.2 Trigger condition definitions 6.4.8.3 HO decision 6.4.8.4 HO from Macro ABS to Femto ABS 6.4.8.5 HO from Femto ABS to Macro ABS or other Femto ABS 6.4.8.6 HO between Femto ABS and R1 system BS
910	6.4.9 Idle mode 6.4.10 Low-duty operation mode 6.4.10.1 General description
911	6.4.10.2 Default LDM pattern(s) 6.4.11 Interference avoidance and interference mitigation
913	6.4.11.1 Interference mitigation trigger condition definitions 6.4.12 Power control 6.4.12.1 Downlink power control 6.4.13 Femto ABS reliability
915	6.5 Multi-BS MIMO 6.5.1 DL Multi-BS MIMO 6.5.1.1 DL/UL signaling
916	6.5.1.2 Single-BS precoding with multi-BS coordination 6.5.1.2.1 Operation procedure
918	6.5.1.3 DL multi-BS joint MIMO processing 6.5.1.3.1 Operation procedure
920	6.5.1.4 Multi-BS MIMO trigger mechanism
921	6.5.2 UL multi-BS MIMO 6.5.2.1 Single-BS precoding with multi-BS coordination 6.5.2.1.1 DL signaling 6.5.2.1.2 Operation procedure
922	6.5.2.2 UL multi-BS joint MIMO processing
923	6.6 Support for relay 6.6.1 Relay modes and general description 6.6.2 Medium access control 6.6.2.1 Addressing 6.6.2.1.1 Station identifier (STID) 6.6.2.1.2 Flow identifier (FID) 6.6.2.2 MAC PDU formats
924	6.6.2.3 Construction and transmission of MPDUs 6.6.2.3.1 Data forwarding scheme 6.6.2.3.2 Forwarding control messages between the ARS and the ASN 6.6.2.4 Security
926	6.6.2.5 Handover 6.6.2.5.1 Network topology advertisement
927	6.6.2.5.2 AMS scanning of neighbor ABSs/ARSs 6.6.2.5.3 AMS handover process 6.6.2.6 Scheduling and QoS 6.6.2.6.1 Connection management 6.6.2.7 Bandwidth request and grant management 6.6.2.8 ARQ
928	6.6.2.9 HARQ 6.6.2.9.1 Generic HARQ signaling and timing 6.6.2.9.1.1 A-MAP relevance and HARQ timing between the ARS and the AMS for TTR mode 6.6.2.9.1.1.1 FDD
930	6.6.2.9.1.1.2 TDD
932	6.6.2.9.1.2 A-MAP relevance and HARQ timing between the ABS and the ARS for TTR mode 6.6.2.9.1.2.1 FDD
934	6.6.2.9.1.2.2 TDD
936	6.6.2.9.2 Group resource allocation HARQ signaling and timing at ARS 6.6.2.9.3 Persistent allocation HARQ signaling and timing at ARS 6.6.2.10 Network entry 6.6.2.10.1 AMS network entry 6.6.2.10.2 ARS network entry 6.6.2.10.2.1 Relay station network entry
938	6.6.2.10.2.2 Handling of the AMS initial ranging by the ARS 6.6.2.11 Ranging 6.6.2.11.1 ARS initial ranging 6.6.2.11.2 Handling of the AMS and ARS periodic ranging 6.6.2.12 Sleep mode 6.6.2.13 Idle mode 6.6.2.14 ARS configuration 6.6.2.14.1 Parameter configuration during TTR ARS network entry
939	6.6.2.14.2 Parameter configuration update for TTR ARS operational mode 6.6.2.15 ARS deregistration 6.6.2.16 Update of SFH 6.6.2.16.1 Update of SFH information during ARS network entry 6.6.2.16.2 Update of SFH information during ARS operational mode 6.6.3 Physical layer for TTR relay mode 6.6.3.1 Basic frame structure supporting ARS
941	6.6.3.2 Frame structure 6.6.3.2.1 FDD frame structure
943	6.6.3.2.2 TDD frame structure
944	6.6.3.2.3 Set of frame configurations for ARS operation
945	6.6.3.3 Relay downlink PHY structure 6.6.3.3.1 MIMO midamble
946	6.6.3.3.2 Cell-specific resource mapping 6.6.3.3.3 Downlink data subcarrier mapping 6.6.3.4 Downlink control structure
947	6.6.3.4.1 Advanced preamble for relay 6.6.3.5 Relay uplink physical structure 6.6.3.5.1 Cell-specific resource mapping 6.6.3.5.2 Uplink data subcarrier mapping 6.6.3.6 Uplink control structure
948	6.6.4 Physical layer for STR relay mode
949	6.7 Support for self-organization 6.7.1 Self-organization 6.7.2 Self-configuration 6.7.2.1 Femto ABS neighbor discovery 6.7.2.2 Macro ABS neighbor list self-discovery 6.7.2.3 Femto ABS self-configuration
950	6.7.3 Self-optimization 6.7.3.1 Support of interference mitigation 6.7.3.2 Support of multi-BS MIMO 6.7.4 Support of reconfigurations and restart 6.7.5 AMS assisted Femto ABS neighbor list update
953	6.8 Support for location-based services (LBS) 6.8.1 Location determination capability negotiation 6.8.2 Basic LBS support 6.8.2.1 Basic functions supported using AAI-LBS-ADV message 6.8.2.2 Measurements and reporting for location determination
954	6.8.2.3 Assistance for satellite-based location determination 6.8.2.4 LBS message formats
956	6.8.3 Enhanced LBS support
957	6.8.3.1 Enhanced LBS support in downlink 6.8.3.1.1 Basic description of downlink LBS zone 6.8.3.1.2 Allocation of D-LBS zone in frame structure
958	6.8.3.2 D-LBS zone location beacon signals 6.8.3.3 Predefined D-LBS zone transmission plan
959	6.8.3.4 D-LBS zone measurement and report
961	6.9 Support for enhanced multicast and broadcast service 6.9.1 E-MBS transmission modes 6.9.1.1 Non-macro-diversity mode
962	6.9.1.2 Macro-diversity mode 6.9.2 E-MBS operation
963	6.9.2.1 E-MBS connection establishment
964	6.9.2.2 E-MBS operation in connected state
965	6.9.2.3 E-MBS operation in Idle state 6.9.2.4 E-MBS Operation on the multicarrier deployment
966	6.9.3 E-MBS protocol features and functions 6.9.3.1 E-MBS configuration indicators 6.9.3.2 E-MBS zone configuration
967	6.9.3.3 E-MBS scheduling interval (MSI)
969	6.10 Support for Advanced Air Interface in LZone 6.10.1 Support for network topology advertisement 6.10.1.1 DL frame prefix 6.10.2 Support for zone switch operation 6.10.2.1 RNG-RSP management message encodings
970	6.10.2.2 RNG-REQ management message encodings
971	6.10.3 Migrating to AAI without impacting the deployed R1 network
973	6.11 Global values
981	Annex A (informative) Bibliography
985	Annex B (normative) Definition of AAI MAC control messages
1079	Annex C (informative) Test vectors
1083	Annex D (informative) Supported frequency bands
1085	Annex E (normative) Radio specifications for WirelessMAN-Advanced Air Interface
1089	Annex F (normative) Default capability class and parameters

Additional information

Standard Title	IEEE Standard for WirelessMAN-Advanced Air Interface for Broadband Wireless Access Systems
Published Code	IEEE
Publication Date	2012
Pages Count	1090

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IEEE 802.16.1 2012

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