IEEE 802.16m-2011

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IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Broadband Wireless Access Systems Amendment 3: Advanced Air Interface

Published By	Publication Date	Number of Pages
IEEE	2011

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Description

Amendment Standard – Superseded. This amendment specifies the WirelessMAN-Advanced Air Interface, an enhanced air interface designated as “IMT-Advanced” by the International Telecommunication Union–Radiocommunication Sector (ITU-R). The amendment is based on the WirelessMAN-OFDMA specification and provides continuing support for legacy subscriber stations.

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std 802.16m-2011 Front Cover
3	Title page
6	Notice to users Laws and regulations Copyrights Updating of IEEE documents
7	Errata Interpretations Patents
8	Participants
13	Contents
29	List of figures
35	List of tables
43	Important Notice
44	1.4 Reference models 1.4.4.2 IEEE 802.16 entity to NCMS Interface
45	2. Normative references
47	3. Definitions
51	4. Abbreviations and acronyms
55	5. Service-specific CS 5.1 ATM CS 5.2 Packet CS 5.2.1 MAC SDU format 5.2.2 Classification
57	5.2.3 Payload header suppression (PHS) 5.2.3.1 PHS operation
58	5.2.3.2 PHS signaling
59	5.2.4 IEEE 802.3/Ethernet-specific part
60	5.2.5 IP specific part 5.2.5.1 IP CS PDU format 5.2.5.2 IP classification rules 5.2.6 Support for multiple protocols on the same flow
63	6. MAC common part sublayer 6.3 Data/control plane 6.3.2 MAC PDU formats 6.3.2.1 MAC header formats 6.3.2.1.2 MAC header without payload 6.3.2.1.2.1 MAC signaling header type 1 6.3.2.1.2.1.1 Bandwidth request (BR) header 6.3.2.3 MAC management messages
66	6.3.2.3.5 RNG-REQ (ranging request) message 6.3.2.3.6 RNG-RSP (ranging response) message
67	6.3.2.3.11 DSA-RSP message 6.3.2.3.11.2 BS-initiated DSA 6.3.2.3.23 SBC-REQ (SS basic capability request) message 6.3.2.3.23.1 HARQ support
68	6.3.2.3.24 SBC-RSP (SS basic capability response) message 6.3.2.3.26 DREG-CMD (de/reregister command) message
69	6.3.2.3.37 DREG-REQ (SS deregistration request) message 6.3.2.3.39 MOB-SLP-REQ (sleep request) message
70	6.3.2.3.40 MOB_SLP-RSP (sleep response) message
71	6.3.2.3.42 MOB_NBR-ADV (neighbor advertisement) message
72	6.3.2.3.47 MOB_BSHO-REQ (BS HO request) message 6.3.2.3.55 OFDMA SUB-DL-UL-MAP message 6.3.5 Scheduling services 6.3.5.2 UL request/grant scheduling 6.3.5.2.2 Real-time polling service (rtPS)
73	6.3.5.2.2.1 Extended rtPS 6.3.6.5 Contention-based CDMA BRs for WirelessMAN-OFDMA 6.3.6.5.1 Contention-based CDMA bandwidth requests using soft combining 6.3.9.5.1 Contention-based initial ranging and automatic adjustments
74	6.3.10.3 OFDMA-based ranging 6.3.10.3.1 Contention-based initial ranging and automatic adjustments 6.3.10.3.1.1 OFDMA—initial ranging with soft combining
75	6.3.10.4 CDMA HO ranging and automatic adjustment 6.3.10.4.2 OFDMA HO ranging with soft combining
77	6.3.10.4.3 OFDMA HO ranging for soft combining without fragmentation of RNG-REQ message
78	6.3.20 Sleep mode for mobility-supporting MS 6.3.20.1 Introduction
79	6.3.20.11 Activation and transition of MS states 6.3.21 MAC HO procedures 6.3.21.1 Network topology acquisition 6.3.21.1.2 MS scanning of neighbor BSs
80	6.3.21.2 HO process 6.3.21.2.1 Drops during HO
81	6.3.23 MS idle mode (optional) 6.3.23.1 MS idle mode initiation
82	6.3.23.2 Cell selection 6.3.23.6 BS Broadcast Paging message 6.3.27 Emergency service
85	7. Security sublayer 7.9.2 Messages
87	8. Physical layer (PHY) 8.3 WirelessMAN-OFDM PHY 8.3.6 Map message fields and IEs 8.3.6.7 Reduced private maps 8.3.6.7.1 Reduced private DL-MAP 8.4 WirelessMAN-OFDMA PHY 8.4.4 Frame structure 8.4.4.6 UL transmission allocations 8.4.5 Map message fields and IEs 8.4.5.3 DL-MAP IE format 8.4.5.3.12 MBS MAP IE
88	8.4.5.3.25 Broadcast Control Pointer IE 8.4.5.3.31 Extended Broadcast Control Pointer IE
89	8.4.5.4 UL-MAP IE format 8.4.5.4.11 CQICH allocation IE format 8.4.5.6 Compressed maps 8.4.5.6.1 Compressed DL-MAP 8.4.7.3 Ranging codes
90	8.4.8 Space-time coding (STC) (optional) 8.4.8.3 STC for the optional zones in the DL 8.4.8.3.1 Symbol structure for optional AMC and optional FUSC 8.4.8.3.1.2 Allocation of data subchannels 8.4.8.3.1.2.1 STC mapping for optional AMC permutation 8.4.12 Channel quality measurements 8.4.12.3 CINR mean and standard deviation
93	10. Parameters and constants 10.1 Global values
95	11. TLV encodings 11.1.3 MAC version encoding 11.3.1 UCD channel encodings
96	11.3.2 DCD channel encodings
97	11.7.7.1 CS type Classification/PHS options and SDU encapsulation support 11.7.8 SS capabilities encodings 11.7.8.11 Extended capability
98	11.8 SBC-REQ/RSP management message encodings 11.8.3 Physical parameters supported 11.8.3.5 WirelessMAN-OFDMA specific parameters 11.8.3.5.10 OFDMA MAP capability 11.8.3.5.18 OFDMA parameter sets
99	11.13 Service flow management encodings 11.13.17 ARQ TLVs for ARQ-enabled connections 11.13.17.3 ARQ_RETRY_TIMEOUT TLV
100	11.13.18.1 CS Specification parameter 11.13.34 PDU SN Extended Subheader for HARQ Reordering TLV
101	11.16 Sleep mode management encodings 11.16.3 Sleep mode functions enabled in full FDD
103	16. WirelessMAN-Advanced Air Interface 16.1 Introduction 16.1.1 WirelessMAN-Advanced radio interface technology specification 16.1.2 AMS operational states
104	16.2 Medium access control 16.2.1 Addressing 16.2.1.1 Global address 16.2.1.1.1 MAC address
105	16.2.1.2 Logical identifiers 16.2.1.2.1 Station identifier (STID) 16.2.1.2.1.1 Temporary station identifier (TSTID) 16.2.1.2.2 Flow identifier (FID)
106	16.2.1.2.3 Deregistration identifier (DID) 16.2.1.2.4 Context retention identifier (CRID) 16.2.1.2.5 E-MBS identifier 16.2.1.2.6 Multicast Group identifier 16.2.2 MAC PDU formats
107	16.2.2.1 MAC header formats 16.2.2.1.1 Advanced generic MAC header (AGMH) 16.2.2.1.2 Short-packet MAC header (SPMH)
108	16.2.2.1.3 MAC signaling header
109	16.2.2.1.3.1 Bandwidth request (BR) with STID header
110	16.2.2.1.3.2 Bandwidth request (BR) without STID header 16.2.2.1.3.3 Service specific scheduling control header (SSSCH)
112	16.2.2.1.3.4 Sleep Control header (SCH)
114	16.2.2.1.3.5 AMS Battery Level Report header
115	16.2.2.1.3.6 Uplink Power Status Report header
116	16.2.2.1.3.7 Correlation Matrix Feedback header (CMFH)
117	16.2.2.1.3.8 MIMO feedback header (MFH)
119	16.2.2.2 Extended header group formats
120	16.2.2.2.1 MAC SDU Fragmentation Extended header (FEH)
122	16.2.2.2.2 MAC SDU Packing Extended header (PEH)
123	16.2.2.2.3 MAC Control Extended header (MCEH)
124	16.2.2.2.4 Multiplexing Extended header (MEH)
125	16.2.2.2.5 MAC Control ACK Extended header (MAEH)
126	16.2.2.2.6 Piggybacked Bandwidth Request Extended header (PBREH) 16.2.2.2.7 Rearrangement Fragmentation and Packing Extended header (RFPEH)
128	16.2.2.2.8 ARQ Feedback Polling Extended header (APEH) 16.2.2.2.9 Advanced Relay Forwarding Extended header (ARFEH) 16.2.3 MAC Control messages
134	16.2.3.1 AAI-RNG-REQ
141	16.2.3.2 AAI-RNG-RSP
152	16.2.3.3 AAI-RNG-ACK
156	16.2.3.4 AAI-RNG-CFM
157	16.2.3.5 AAI-SBC-REQ
160	16.2.3.6 AAI-SBC-RSP
164	16.2.3.7 AAI-SON-ADV message
166	16.2.3.8 AAI-REG-REQ
170	16.2.3.9 AAI-REG-RSP
175	16.2.3.10 AAI-HO-IND
177	16.2.3.11 AAI-HO-REQ
178	16.2.3.12 AAI-HO-CMD
183	16.2.3.13 AAI-NBR-ADV
189	16.2.3.14 AAI-SCN-REQ
192	16.2.3.15 AAI-SCN-RSP
197	16.2.3.16 AAI-SCN-REP
202	16.2.3.17 AAI-CLC-REQ (Co-Located Coexistence Request)
207	16.2.3.18 AAI-CLC-RSP (Co-Located Coexistence Response)
208	16.2.3.19 AAI-FFR-CMD (FFR Command) message 16.2.3.20 AAI-FFR-REP (FFR report) message
211	16.2.3.21 AAI-DREG-REQ message
214	16.2.3.22 AAI-DREG-RSP message
218	16.2.3.23 AAI-PAG-ADV (paging advertisement) message
220	16.2.3.24 PGID-Info (paging group information) message
221	16.2.3.25 AAI-SLP-REQ
225	16.2.3.26 AAI-SLP-RSP
229	16.2.3.27 AAI-TRF-IND
232	16.2.3.28 AAI-TRF-IND-REQ
233	16.2.3.29 AAI-TRF-IND-RSP
234	16.2.3.30 L2 Transfer message (AAI-L2-XFER)
236	16.2.3.31 AAI-System Configuration Descriptor (SCD) message
243	16.2.3.32 AAI-UL Noise and Interference Level Broadcast message
244	16.2.3.33 AAI-UL-POWER-ADJ message
245	16.2.3.34 AAI-Uplink Power Status Reporting Configuration (AAI-UL-PSR-CFG) message
246	16.2.3.35 AAI-DL-IM message
248	16.2.3.36 AAI-MSG-ACK 16.2.3.37 AAI-SBS-MIMO-FBK
252	16.2.3.38 AAI-MBS-MIMO-FBK
254	16.2.3.39 AAI-MBS-MIMO-REQ
256	16.2.3.40 AAI-MBS-MIMO-RSP
257	16.2.3.41 AAI-MBS-SOUNDING-CAL
258	16.2.3.42 AAI-MBS-SBP 16.2.3.43 Privacy key MAC Control messages (AAI-PKM-REQ/AAI-PKM-RSP)
262	16.2.3.43.1 PKMv3 Reauth-Request message
263	16.2.3.43.2 PKMv3 EAP-Transfer message 16.2.3.43.3 PKMv3 Key_Agreement-MSG#1 message
264	16.2.3.43.4 PKMv3 Key_Agreement-MSG#2 message
265	16.2.3.43.5 PKMv3 Key_Agreement-MSG#3 message
266	16.2.3.43.6 PKMv3 TEK-Request message
267	16.2.3.43.7 PKMv3 TEK-Reply message 16.2.3.43.8 PKMv3 TEK-Invalid message
268	16.2.3.44 AAI-ARQ-Feedback message
271	16.2.3.45 AAI-ARQ-Discard message 16.2.3.46 AAI-ARQ-Reset message
272	16.2.3.47 DSx MAC Control message 16.2.3.47.1 AAI-DSA-REQ
289	16.2.3.47.2 AAI-DSA-RSP
294	16.2.3.47.3 AAI-DSA-ACK
295	16.2.3.47.4 AAI-DSC-REQ
308	16.2.3.47.5 AAI-DSC-RSP
312	16.2.3.47.6 AAI-DSC-ACK 16.2.3.47.7 AAI-DSD-REQ
316	16.2.3.47.8 AAI-DSD-RSP
319	16.2.3.48 Group Configuration MAC Control message (AAI-GRP-CFG)
321	16.2.3.49 AAI-RES-CMD (Reset command) 16.2.3.50 AAI-SII-ADV (Service Identity information)
322	16.2.3.51 AAI-MC-REQ (Multicarrier Request) message
324	16.2.3.52 AAI-MC-RSP (Multicarrier Response) message
325	16.2.3.53 Carrier Management Command (AAI-CM-CMD) MAC control message
329	16.2.3.54 Carrier Management Indication (AAI-CM-IND) MAC control message
330	16.2.3.55 AAI-MC-ADV (Multicarrier Advertisement) message
334	16.2.3.56 AAI-Global-CFG (global carrier configuration) message
335	16.2.3.57 AAI-ARS-CONFIG-CMD message format
338	16.2.3.58 AAI-ARS-ESI message
339	16.2.3.59 AAI-E-MBS-REP
340	16.2.3.60 AAI-E-MBS-RSP
341	16.2.3.61 AAI-E-MBS-CFG message
345	16.2.3.62 AAI-LBS-ADV message
347	16.2.3.63 AAI-LBS-IND message
348	16.2.4 Construction and transmission of MAC PDUs
351	16.2.4.1 Convention 16.2.4.2 Multiplexing
352	16.2.4.3 Concatenation 16.2.4.4 Fragmentation
353	16.2.4.4.1 Transport connections 16.2.4.4.1.1 Non-ARQ transport connections 16.2.4.4.1.2 ARQ-enabled transport connections 16.2.4.4.2 Control connections 16.2.4.5 Packing
354	16.2.4.5.1 Packing for non-ARQ connections
355	16.2.4.5.2 Packing for ARQ connections
356	16.2.4.6 Encryption of MAC PDUs
357	16.2.4.7 Padding 16.2.4.8 MAC control messages with CMAC protection
359	16.2.5 AAI Security 16.2.5.1 Security architecture
360	16.2.5.2 Key Management protocol (PKMv3) 16.2.5.2.1 Key management
361	16.2.5.2.1.1 Key derivation 16.2.5.2.1.1.1 PMK derivation 16.2.5.2.1.1.2 AK derivation
362	16.2.5.2.1.1.2.1 AK_COUNT management 16.2.5.2.1.1.2.2 Maintenance of AK_COUNTM by the AMS 16.2.5.2.1.1.2.3 AK_COUNT LOCK state
363	16.2.5.2.1.1.2.4 Processing of AK_COUNTB by the ABS
366	16.2.5.2.1.1.3 CMAC key derivation 16.2.5.2.1.1.4 TEK derivation
367	16.2.5.2.1.2 Key hierarchy
368	16.2.5.2.1.3 Maintenance of PMK and AK, PMK and AK switching methods 16.2.5.2.1.4 Key agreement 3-way handshake after (re)authentication
371	16.2.5.2.1.5 Key usage 16.2.5.2.1.5.1 TEK usage 16.2.5.2.1.5.2 TEK update
372	16.2.5.2.1.5.3 TEK update after full reauthentication
373	16.2.5.2.1.5.4 Key update during handover 16.2.5.2.1.5.5 Key usage during location update and network reentry from idle mode
374	16.2.5.2.1.5.6 Key update during zone switching from LZone to MZone 16.2.5.2.1.5.7 Key update during zone switch from MZone to LZone
375	16.2.5.2.2 SA management 16.2.5.2.2.1 Mapping of flows to SAs
376	16.2.5.2.2.2 Mapping of flows to SAs during zone switching
377	16.2.5.2.3 Cryptographic methods 16.2.5.2.3.1 Payload encryption methods 16.2.5.2.3.1.1 AES-CCM
379	16.2.5.2.3.1.2 AES-CTR 16.2.5.2.3.2 Calculation of cipher-based message authentication code (CMAC)
380	16.2.5.2.4 AMS authentication state machine
384	16.2.5.2.4.1 States
385	16.2.5.2.4.2 Messages
386	16.2.5.2.4.3 Events
387	16.2.5.2.4.4 Parameters 16.2.5.2.4.5 Actions
390	16.2.5.2.5 TEK state machine
392	16.2.5.2.5.1 States
393	16.2.5.2.5.2 Messages 16.2.5.2.5.3 Events 16.2.5.2.5.4 Parameters
394	16.2.5.2.5.5 Actions 16.2.5.3 Privacy 16.2.5.3.1 AMS identity privacy
395	16.2.5.3.2 AMS location privacy
396	16.2.5.3.3 Control plane signaling protection
397	16.2.5.4 Security context 16.2.5.4.1 MSK context
398	16.2.5.4.2 PMK context
399	16.2.5.4.3 AK context
400	16.2.5.4.4 SA context
401	16.2.5.4.4.1 TEK context 16.2.5.4.4.2 SA Context
402	16.2.6 MAC HO procedures 16.2.6.1 Network topology acquisition 16.2.6.1.1 Network topology advertisement 16.2.6.1.2 AMS scanning of neighbor ABSs
403	16.2.6.2 Trigger condition definitions
406	16.2.6.3 HO procedure 16.2.6.3.1 HO Framework
407	16.2.6.3.2 HO decision and initiation
408	16.2.6.3.3 HO preparation
409	16.2.6.3.4 HO execution
410	16.2.6.3.5 Network reentry 16.2.6.3.5.1 CDMA-based HO ranging procedure
412	16.2.6.3.5.2 Network reentry procedure
416	16.2.6.3.6 HO cancellation 16.2.6.3.7 Drops during HO 16.2.6.4 Handover between WirelessMAN-Advanced Air Interface and reference systems 16.2.6.4.1 Handover from WirelessMAN-OFDMA R1 reference to advanced system 16.2.6.4.1.1 Network Topology acquisition 16.2.6.4.1.1.1 Network Topology advertisement
417	16.2.6.4.1.1.2 AMS scanning 16.2.6.4.1.2 Handover procedure 16.2.6.4.1.2.1 Zone switch based handover procedure
420	16.2.6.4.1.2.2 Direct handover procedure
421	16.2.6.4.1.3 Context mapping 16.2.6.4.1.3.1 MAC identifiers 16.2.6.4.2 Handover from WirelessMAN-Advanced Air Interface System to WirelessMAN- OFDMA R1 Reference System 16.2.6.4.2.1 Network topology acquisition 16.2.6.4.2.1.1 Network topology advertisement 16.2.6.4.2.1.2 AMS scanning 16.2.6.4.2.2 Handover procedure
422	16.2.6.4.2.3 Context mapping 16.2.6.4.2.3.1 MAC identifiers 16.2.6.4.2.4 Handover from WirelessMAN-Advanced Air Interface-Only System to WirelessMAN-OFDMA R1 Reference System
423	16.2.6.4.2.5 Zone switch from MZone to LZone 16.2.6.5 Handover between WirelessMAN-Advanced Air Interface System and other RAT systems 16.2.6.5.1 Inter-RAT capability negotiation 16.2.6.5.2 Inter-RAT handover procedure 16.2.6.5.2.1 Network topology acquisition
424	16.2.6.5.2.1.1 Passive other RAT discovery 16.2.6.5.2.1.2 Active other RAT discovery 16.2.6.5.2.1.2.1 Active other RAT discovery with MIHF support 16.2.6.5.2.1.2.2 Active other RAT discovery using AAI scanning
425	16.2.6.5.2.1.2.3 Generic active network discovery and selection procedure
426	16.2.6.5.2.2 Generic inter-RAT HO procedure 16.2.6.5.2.2.1 Generic other RAT MAC container 16.2.6.5.2.2.2 Measurements 16.2.6.5.2.2.2.1 Scanning
427	16.2.6.5.2.2.2.2 Measurement parameters 16.2.6.5.2.2.2.3 Measurement reporting 16.2.6.5.2.3 Enhanced inter-RAT HO procedure 16.2.6.5.2.3.1 Dual transmitter/dual receiver support 16.2.6.5.2.3.2 Single transmitter support
428	16.2.6.5.2.3.2.1 Handover execution and completion 16.2.7 Persistent scheduling in the Advanced Air Interface 16.2.7.1 Allocation mechanism
429	16.2.7.2 Deallocation mechanism 16.2.7.3 HARQ retransmissions 16.2.7.4 Error handling procedure
430	16.2.8 Multicarrier operation 16.2.8.1 Multicarrier types and operational modes
431	16.2.8.2 MAC operation 16.2.8.2.1 Addressing 16.2.8.2.2 Security 16.2.8.2.3 Network entry
433	16.2.8.2.3.1 AMSs obtaining MC configuration
434	16.2.8.2.3.2 Secondary carrier assignment 16.2.8.2.4 Ranging 16.2.8.2.5 MAC PDU processing
435	16.2.8.2.6 Bandwidth request and resource allocation 16.2.8.2.6.1 Bandwidth request 16.2.8.2.6.2 Resource allocation 16.2.8.2.7 QoS and connection management 16.2.8.2.8 DL/UL PHY level control and UL feedback channel allocation
436	16.2.8.2.8.1 Carrier-specific PHY control mode 16.2.8.2.9 Handover
437	16.2.8.2.9.1 Network topology acquisition 16.2.8.2.9.1.1 Network topology advertisement 16.2.8.2.9.1.2 AMS scanning of target carriers
439	16.2.8.2.9.2 Multicarrier handover (MCHO) procedure 16.2.8.2.9.2.1 MCHO preparation
440	16.2.8.2.9.2.2 MCHO execution and network reentry with HO_Reentry_Mode=1
441	16.2.8.2.9.2.3 HO with secondary carrier pre-assignment
442	16.2.8.2.10 Power management 16.2.8.2.10.1 Sleep mode
443	16.2.8.2.10.2 Idle mode
444	16.2.8.2.11 Carrier management 16.2.8.2.11.1 Secondary carrier activation/deactivation
446	16.2.8.2.11.2 Primary Carrier Change
449	16.2.8.2.11.3 Primary to secondary carrier switching 16.2.9 Group Resource Allocation 16.2.9.1 Grouping mechanism 16.2.9.2 Group configuration
451	16.2.9.3 Group management 16.2.9.3.1 Addition of AMS to a group 16.2.9.3.1.1 ABS operation 16.2.9.3.1.2 AMS operation 16.2.9.3.2 Deletion of a flow from a group
452	16.2.9.3.2.1 ABS operation 16.2.9.3.2.2 AMS operation 16.2.9.4 Normal GRA operation
453	16.2.9.4.1 Bitmaps in group resource allocation
456	16.2.10 Connection management 16.2.10.1 Control connections 16.2.10.2 Transport connections
457	16.2.11 Bandwidth request and allocation mechanism 16.2.11.1 Bandwidth request 16.2.11.1.1 Contention-based random access bandwidth request
460	16.2.11.1.2 Standalone bandwidth request header
461	16.2.11.1.3 Piggybacked bandwidth request 16.2.11.1.4 Bandwidth request using P-FBCH 16.2.11.1.4.1 BR indication flag feedback 16.2.11.1.4.2 ertPS/aGP service BR
462	16.2.11.1.5 Bandwidth request message format 16.2.11.1.5.1 Quick access message format 16.2.11.1.5.2 Bandwidth Request header format
463	16.2.11.1.5.3 Piggyback Bandwidth Request Extended header format 16.2.12 Quality of service (QoS) 16.2.12.1 Theory of operation 16.2.12.2 Service flows
466	16.2.12.3 Object model
467	16.2.12.4 Service classes
468	16.2.12.4.1 Global Service classes
471	16.2.12.5 Authorization
472	16.2.12.6 Service flow management
473	16.2.12.6.1 Dynamic service flow creation
474	16.2.12.6.2 Dynamic service flow modification and deletion 16.2.12.7 Scheduling services 16.2.12.7.1 Adaptive granting and polling service
478	16.2.12.7.1.1 Handover support 16.2.12.8 Emergency and NS/EP service flows 16.2.12.9 Emergency and NS/EP service notification during initial ranging
479	16.2.12.10 Emergency and NS/EP service notification during connected state 16.2.12.11 Emergency Alert Service 16.2.12.12 Service flow/convergence sublayer parameters
490	16.2.12.12.1 FID 16.2.12.12.2 Uplink/Downlink indicator 16.2.12.12.3 Differentiated BR timer 16.2.12.12.4 Predefined BR index parameter
491	16.2.12.12.5 Coupled Group Create/Change 16.2.12.12.5.1 Qty Coupled SFID request 16.2.12.12.6 Group Parameter Create/Change 16.2.12.12.6.1 Qty SFID request 16.2.12.12.7 HARQ channel mapping 16.2.12.12.8 Vendor-specific information
492	16.2.12.12.8.1 Vendor-specific classification parameters 16.2.12.12.8.2 Vendor-specific PHS parameters 16.2.12.12.8.3 Vendor-specific QoS parameters 16.2.13 ARQ mechanism 16.2.13.1 ARQ block usage 16.2.13.1.1 Initial transmission
493	16.2.13.1.2 Retransmission
494	16.2.13.2 ARQ feedback 16.2.13.2.1 ARQ feedback transmission
495	16.2.13.2.2 ARQ feedback poll 16.2.13.2.3 ARQ feedback triggering conditions 16.2.13.3 ARQ parameters and timers 16.2.13.3.1 ARQ_SN_MODULUS 16.2.13.3.2 ARQ_WINDOW_SIZE 16.2.13.3.3 ARQ_SUB_BLOCK_SIZE 16.2.13.3.4 ARQ_BLOCK_LIFETIME 16.2.13.3.5 ARQ_RX_PURGE_TIMEOUT 16.2.13.3.6 ARQ_MAX_ BUFFER_SIZE
496	16.2.13.3.7 ARQ_SYNC_LOSS_TIMEOUT 16.2.13.3.8 ARQ_ERROR_DETECTION_TIMEOUT 16.2.13.3.9 ARQ_FEEDBACK_POLL_RETRY_TIMEOUT 16.2.13.4 ARQ state machine variables 16.2.13.4.1 ARQ_TX_WINDOW_START 16.2.13.4.2 ARQ_TX_NEXT_SN 16.2.13.4.3 ARQ_RX_WINDOW_START 16.2.13.4.4 ARQ_RX_HIGHEST_SN 16.2.13.5 ARQ operation 16.2.13.5.1 Sequence number comparison
497	16.2.13.5.2 Transmitter operation 16.2.13.5.2.1 ARQ block state machine
498	16.2.13.5.2.2 ARQ subblock state machine
499	16.2.13.5.2.3 ARQ feedback processing 16.2.13.5.3 Receiver operation 16.2.13.5.3.1 Receiver state machine
500	16.2.13.5.3.2 Error detection and ARQ feedback generation 16.2.13.5.3.3 ARQ discard message reception 16.2.13.5.3.4 ARQ block purge procedure 16.2.13.5.3.5 SDU reconstruction and in-order delivery
501	16.2.13.5.4 ARQ reset procedure
504	16.2.13.5.5 ARQ synchronization loss 16.2.13.5.6 ARQ buffer management 16.2.14 HARQ functions 16.2.14.1 HARQ subpacket generation and transmission
505	16.2.14.2 Generic HARQ signaling and timing 16.2.14.2.1 HARQ signaling 16.2.14.2.1.1 Downlink 16.2.14.2.1.2 Uplink
506	16.2.14.2.1.3 DL HARQ buffering capability
507	16.2.14.2.1.4 UL HARQ buffering capability 16.2.14.2.2 A-MAP relevance and HARQ timing 16.2.14.2.2.1 FDD 16.2.14.2.2.1.1 Downlink
509	16.2.14.2.2.1.2 Uplink
510	16.2.14.2.2.2 TDD 16.2.14.2.2.2.1 Downlink
512	16.2.14.2.2.2.2 Uplink
514	16.2.14.2.2.2.3 HARQ timing in frame structure supporting the WirelessMAN-OFDMA R1 Reference System frames
517	16.2.14.3 Group resource allocation HARQ signaling and timing 16.2.14.3.1 Downlink 16.2.14.3.2 Uplink 16.2.14.4 Persistent allocation HARQ signaling and timing 16.2.14.4.1 Downlink
518	16.2.14.4.2 Uplink 16.2.14.5 HARQ and ARQ interactions 16.2.14.6 Combined feedback scheme for ROHC and HARQ
519	16.2.15 Network entry and initialization
523	16.2.15.1 AMS DL PHY synchronization 16.2.15.2 AMS obtaining DL/UL parameters 16.2.15.3 Initial ranging and automatic adjustments
525	16.2.15.4 Basic capability negotiation
526	16.2.15.5 AMS authorization and key exchange 16.2.15.6 Registration
528	16.2.16 Periodic ranging
529	16.2.17 Sleep mode
530	16.2.17.1 Sleep mode initiation 16.2.17.2 Sleep mode operation 16.2.17.2.1 Sleep cycle operations
532	16.2.17.2.2 Sleep window operations 16.2.17.2.3 Listening window operations 16.2.17.2.3.1 Traffic indication
533	16.2.17.2.3.2 Listening window extension
535	16.2.17.2.4 Sleep mode parameter update 16.2.17.2.5 FFBCH operation during sleep mode
536	16.2.17.2.6 Interruptions to normal sleep cycle operation 16.2.17.2.6.1 Sleep cycle operation during control signaling transactions 16.2.17.2.6.2 Sleep operation with reception of broadcast/multicast transmissions
537	16.2.17.3 Sleep mode termination 16.2.18 Idle mode
538	16.2.18.1 Idle mode initiation 16.2.18.1.1 AMS initiated
540	16.2.18.1.2 ABS initiated
545	16.2.18.2 Operation during idle mode 16.2.18.2.1 Operation during paging unavailable interval
546	16.2.18.2.2 Broadcast paging message
547	16.2.18.2.3 Operation during paging listening interval
548	16.2.18.3 Idle mode termination 16.2.18.4 Location update 16.2.18.4.1 Location update trigger conditions
549	16.2.18.4.1.1 Paging group-based update 16.2.18.4.1.2 Timer-based update 16.2.18.4.1.3 Power down update 16.2.18.4.2 Location update process
550	16.2.18.5 Network reentry from idle mode 16.2.18.6 Idle mode support for MBS 16.2.18.6.1 MBS location update 16.2.19 Deregistration with context retention (DCR) mode
551	16.2.19.1 DCR initiation in connected state 16.2.19.2 DCR mode initiation from idle mode 16.2.19.3 DCR mode extension 16.2.19.4 Network reentry from DCR mode 16.2.19.5 DCR mode termination
552	16.2.20 Co-located coexistence (CLC)
556	16.2.20.1 Type I CLC class
557	16.2.20.2 Type II CLC class
558	16.2.20.2.1 Type II CLC class—Subtype 1 16.2.20.2.2 Type II CLC class—Subtype 2
559	16.2.20.2.3 Type II CLC class—Subtype 3 16.2.20.3 Type III CLC class
560	16.2.21 Interference mitigation mechanism 16.2.21.1 DL FFR
561	16.2.21.1.1 DL/UL signaling
563	16.2.21.1.2 Operation procedure 16.2.21.1.2.1 Broadcast and update of DL FFR information by ABS 16.2.21.1.2.2 Feedback of preferred frequency partition by AMS
564	16.2.21.1.2.3 Initial frequency partition at system entry 16.2.21.1.2.4 Frequency partition selection by AMS in case of DLRU or NLRU
565	16.2.21.1.2.5 Subband partition selection by AMS in case of SLRU 16.2.21.2 UL FFR
567	16.2.21.3 FFR partition configuration 16.2.22 MAC control reliability 16.2.23 Power management for the active mode
568	16.2.24 Update of S-SFH IEs
571	16.2.25 Short message service
572	16.2.26 Coverage loss detection and recovery from coverage loss 16.2.26.1 Coverage loss detection at ABS and ABS’s behavior
573	16.2.26.2 Coverage loss detection at AMS and AMS’s behavior 16.2.26.3 Coverage loss recovery procedure 16.2.26.4 Recovery from coverage loss due to the ABS restart
574	16.2.27 AMS deregistration 16.2.28 Support for multicast service 16.2.28.1 Multicast operation 16.2.28.2 Multicast connection establishment
575	16.2.28.3 Multicast operation in connected state
577	16.3 Physical layer 16.3.1 Introduction 16.3.2 OFDMA symbol description, symbol parameters, and transmitted signal 16.3.2.1 Time domain description 16.3.2.2 Frequency domain description 16.3.2.3 Primitive parameters
578	16.3.2.4 Derived parameters
579	16.3.2.5 Transmitted signal
581	16.3.2.6 Definition of basic terms on the transmission chain 16.3.3 Frame structure 16.3.3.1 Basic frame structure
584	16.3.3.2 Frame structure for CP = 1/8 Tb 16.3.3.2.1 FDD frame structure
586	16.3.3.2.2 TDD frame structure
588	16.3.3.3 Frame structure for CP = 1/16 Tb
591	16.3.3.4 Frame structure for CP = 1/4 Tb
594	16.3.3.5 Frame structure supporting WirelessMAN-OFDMA 16.3.3.5.1 TDD frame structure
597	16.3.3.5.2 FDD frame structure
598	16.3.3.6 Frame structure supporting wider bandwidth
599	16.3.3.6.1 Support for WirelessMAN-OFDMA with multicarrier operation
600	16.3.3.6.2 Subcarrier alignment for multicarrier operation
602	16.3.3.6.3 Data transmission over guard subcarriers in multicarrier operation 16.3.3.7 Set of frame configurations
605	16.3.4 Downlink physical structure
606	16.3.4.1 Physical and logical resource unit 16.3.4.1.1 Distributed logical resource unit 16.3.4.1.2 Contiguous logical resource unit 16.3.4.2 Multi-cell resource mapping 16.3.4.2.1 Subband partitioning
610	16.3.4.2.2 Miniband permutation
612	16.3.4.2.3 Frequency partitioning
616	16.3.4.3 Cell-specific resource mapping
617	16.3.4.3.1 CRU/DRU allocation
622	16.3.4.3.2 Subcarrier permutation
625	16.3.4.3.3 Random sequence generation 16.3.4.3.4 A-MAP symbols to subcarrier pair mapping 16.3.4.3.5 Logical resource unit mapping
626	16.3.4.4 Pilot structure 16.3.4.4.1 Pilot patterns
634	16.3.4.4.2 MIMO midamble
636	16.3.4.4.3 Usage of downlink pilots
637	16.3.4.4.4 E-MBS zone-specific pilot patterns
639	16.3.4.5 Downlink physical structure for multicarrier support
640	16.3.4.6 Downlink physical structure for E-MBS support
641	16.3.5 Downlink control structure 16.3.5.1 Advanced Preamble
642	16.3.5.1.1 Primary Advanced Preamble (PA-Preamble)
644	16.3.5.1.2 Secondary advanced preamble (SA-Preamble)
666	16.3.5.2 DL control channels 16.3.5.2.1 Superframe header
667	16.3.5.2.1.1 Primary Superframe header 16.3.5.2.1.2 Secondary Superframe header
669	16.3.5.2.2 Advanced MAP (A-MAP)
670	16.3.5.2.2.1 Non-user specific A-MAP 16.3.5.2.2.2 HARQ Feedback A-MAP 16.3.5.2.2.3 Power Control A-MAP 16.3.5.2.2.4 Assignment A-MAP
672	16.3.5.2.3 Enhanced multicast broadcast service MAP (E-MBS MAP)
673	16.3.5.3 Resource mapping of DL control channels 16.3.5.3.1 Superframe header 16.3.5.3.1.1 Primary Superframe header 16.3.5.3.1.2 Secondary Superframe header
674	16.3.5.3.2 Advanced MAP (A-MAP) 16.3.5.3.2.1 Non-user-specific A-MAP 16.3.5.3.2.2 HARQ feedback A-MAP
676	16.3.5.3.2.3 Power Control A-MAP
677	16.3.5.3.2.4 Assignment A-MAP
678	16.3.5.3.3 Enhanced-Multicast Broadcast Services MAP (E-MBS MAP) 16.3.5.4 Downlink power control 16.3.5.4.1 Power control for A-MAP
679	16.3.5.5 DL control information elements 16.3.5.5.1 SFH control information elements 16.3.5.5.1.1 P-SFH IE
680	16.3.5.5.1.2 S-SFH IE
690	16.3.5.5.2 A-MAP control information elements 16.3.5.5.2.1 Non-user-specific A-MAP IE
694	16.3.5.5.2.2 HARQ Feedback A-MAP IE 16.3.5.5.2.3 Power Control A-MAP IE
695	16.3.5.5.2.4 Assignment A-MAP IE
697	16.3.5.5.2.4.1 DL basic assignment A-MAP IE
704	16.3.5.5.2.4.2 UL basic assignment A-MAP IE
708	16.3.5.5.2.4.3 DL Subband Assignment A-MAP IE
717	16.3.5.5.2.4.4 UL Subband Assignment A-MAP IE
718	16.3.5.5.2.4.5 Feedback Allocation A-MAP IE
725	16.3.5.5.2.4.6 UL Sounding Command A-MAP IE
727	16.3.5.5.2.4.7 CDMA Allocation A-MAP IE
729	16.3.5.5.2.4.8 DL persistent allocation A-MAP IE
732	16.3.5.5.2.4.9 UL persistent allocation A-MAP IE
734	16.3.5.5.2.4.10 Group resource allocation A-MAP IE
736	16.3.5.5.2.4.11 Feedback Polling A-MAP IE
746	16.3.5.5.2.4.12 BR ACK A-MAP IE
748	16.3.5.5.2.4.13 Broadcast Assignment A-MAP IE
751	16.3.5.5.2.4.14 Extended Assignment A-MAP IE 16.3.5.5.2.4.15 Assignment A-MAP IE segmentation
752	16.3.5.5.3 E-MBS Control Information elements
753	16.3.6 Downlink MIMO 16.3.6.1 Downlink MIMO architecture and data processing
754	16.3.6.1.1 MIMO layer to MIMO stream mapping
755	16.3.6.1.1.1 SFBC encoding 16.3.6.1.1.2 Vertical encoding 16.3.6.1.1.3 Multi-layer encoding
756	16.3.6.1.1.4 CDR encoding 16.3.6.1.2 MIMO stream to antenna mapping 16.3.6.1.2.1 Non-adaptive precoding
759	16.3.6.1.2.2 Adaptive precoding 16.3.6.1.3 Downlink MIMO modes
761	16.3.6.2 Transmission schemes for data channels 16.3.6.2.1 Encoding and precoding of SU-MIMO 16.3.6.2.1.1 Encoding of SU-MIMO modes
762	16.3.6.2.1.2 Precoding of SU-MIMO modes 16.3.6.2.2 Encoding and precoding of MU-MIMO 16.3.6.2.2.1 Encoding of MU-MIMO modes 16.3.6.2.2.2 Precoding of MU-MIMO modes
763	16.3.6.2.3 Mapping of data and pilot subcarriers 16.3.6.2.4 Usage of MIMO modes
764	16.3.6.2.5 Feedback mechanisms and operation 16.3.6.2.5.1 Open-loop region
766	16.3.6.2.5.2 MIMO feedback mode selection 16.3.6.2.5.3 MIMO feedback modes
768	16.3.6.2.5.4 Downlink signaling support of DL-MIMO modes
771	16.3.6.2.5.5 Quantized MIMO feedback for closed-loop transmit precoding
788	16.3.6.2.5.5.1 Transformation codebook based feedback mode
790	16.3.6.2.5.5.2 Differential codebook-based feedback mode
802	16.3.6.2.5.6 Unquantized MIMO feedback for closed-loop transmit precoding
803	16.3.6.3 Transmission schemes for control channels 16.3.6.4 MIMO transmission schemes for E-MBS 16.3.7 Uplink physical structure 16.3.7.1 Physical and logical resource unit
804	16.3.7.1.1 Distributed logical resource unit 16.3.7.1.2 Contiguous logical resource unit 16.3.7.2 Multi-cell resource mapping 16.3.7.2.1 Subband partitioning
808	16.3.7.2.2 Miniband permutation
809	16.3.7.2.3 Frequency partitioning
813	16.3.7.3 Cell-specific resource mapping
814	16.3.7.3.1 CRU/DRU allocation
819	16.3.7.3.2 Tile permutation
821	16.3.7.3.3 Resource allocation and tile permutation for control channels 16.3.7.3.3.1 Bandwidth request channels
822	16.3.7.3.3.2 Feedback channels
824	16.3.7.3.4 Logical resource unit mapping 16.3.7.3.5 WirelessMAN-OFDMA systems support 16.3.7.3.5.1 Basic symbol structure for FDM based UL PUSC zone support
825	16.3.7.3.5.2 Resource block for FDM based UL PUSC zone support 16.3.7.3.5.3 Subchannelization for FDM based UL PUSC zone support
826	16.3.7.4 Pilot structure
832	16.3.7.5 Uplink physical structure for multicarrier support
833	16.3.8 Uplink control channel 16.3.8.1 Physical uplink control channel 16.3.8.1.1 Fast feedback control channel 16.3.8.1.1.1 Primary fast feedback channel 16.3.8.1.1.2 Secondary fast feedback channel 16.3.8.1.2 HARQ feedback control channel
834	16.3.8.1.3 Sounding channel 16.3.8.1.3.1 Sounding PHY structure 16.3.8.1.4 Ranging channel
835	16.3.8.1.4.1 Ranging channel structure for non-synchronized AMSs
836	16.3.8.1.4.2 Ranging channel structure for synchronized AMSs
837	16.3.8.1.4.3 Ranging channels for FDM-based UL PUSC zone support
839	16.3.8.1.5 Bandwidth request channel 16.3.8.2 Uplink control channels physical resource mapping 16.3.8.2.1 Fast feedback control channel (FFBCH) 16.3.8.2.1.1 Primary fast feedback control channel
842	16.3.8.2.1.2 Secondary fast feedback control channel 16.3.8.2.2 HARQ feedback control channel
843	16.3.8.2.3 Sounding channel 16.3.8.2.3.1 Sounding sequence
845	16.3.8.2.3.2 Multiplexing for multi-antenna and multi-AMS
846	16.3.8.2.4 Ranging channel 16.3.8.2.4.1 Ranging channel for non-synchronized AMSs
848	16.3.8.2.4.2 Ranging channel for synchronized AMSs
850	16.3.8.2.4.3 Ranging channel for FDM-based UL PUSC zone support
853	16.3.8.2.5 Bandwidth request channel
856	16.3.8.3 Uplink control information content 16.3.8.3.1 Fast feedback control channel
857	16.3.8.3.1.1 Primary fast feedback control channel
860	16.3.8.3.1.2 Secondary fast feedback control channel 16.3.8.3.1.3 Channel quality indicator (CQI) definition
864	16.3.8.3.1.4 Representation of Subband Indices
865	16.3.8.3.1.5 Feedback formats
875	16.3.8.3.1.6 Operation of EDI for request for switching MFM 16.3.8.3.2 Bandwidth request channel 16.3.8.4 Uplink power control
876	16.3.8.4.1 Power control for data channel 16.3.8.4.2 Power control for control channels
877	16.3.8.4.3 Power correction using PC-A-MAP 16.3.8.4.4 Initial ranging channel power control
879	16.3.8.4.5 Sounding channel power control 16.3.8.4.6 Concurrent transmission of uplink control channel and data
880	16.3.8.4.7 Uplink power status reporting 16.3.8.4.7.1 Power status reporting information 16.3.8.4.7.2 Status transmission condition
881	16.3.8.4.8 Uplink power control in initial network entry and reentry
882	16.3.8.4.9 Uplink power control in handover 16.3.8.4.10 Uplink power control in multicarrier operation 16.3.8.5 Uplink physical structure for multicarrier support
883	16.3.9 Uplink MIMO 16.3.9.1 Uplink MIMO architecture and data processing 16.3.9.1.1 MIMO layer to MIMO stream mapping 16.3.9.1.1.1 SFBC encoding 16.3.9.1.1.2 Vertical encoding
884	16.3.9.1.2 MIMO stream to antenna mapping 16.3.9.1.2.1 Non-adaptive precoding
885	16.3.9.1.2.2 Adaptive precoding 16.3.9.1.3 Uplink MIMO transmission modes
887	16.3.9.2 Transmission schemes for data channels 16.3.9.2.1 Encoding and precoding of SU-MIMO modes 16.3.9.2.1.1 Encoding of SU-MIMO modes 16.3.9.2.1.2 Precoding of SU-MIMO modes 16.3.9.2.2 Encoding and precoding of collaborative spatial multiplexing (MU-MIMO) 16.3.9.2.2.1 Encoding of MU-MIMO modes 16.3.9.2.2.2 Precoding of MU-MIMO modes 16.3.9.2.3 Mapping of data subcarriers 16.3.9.2.4 Usage of MIMO modes
888	16.3.9.2.5 Downlink signaling support of UL-MIMO modes 16.3.9.2.5.1 Broadcast information 16.3.9.3 Codebook for closed-loop transmit precoding 16.3.9.3.1 Base codebook for two transmit antenna 16.3.9.3.1.1 SU-MIMO base codebook 16.3.9.3.1.2 MU-MIMO base codebook 16.3.9.3.2 Base codebook for four transmit antennas 16.3.9.3.2.1 SU-MIMO base codebook
889	16.3.9.3.2.2 MU-MIMO base codebook 16.3.9.4 Codebook subsets for open-loop transmit precoding 16.3.9.4.1 OL SU-MIMO subset
890	16.3.9.4.1.1 OL SU-MIMO subset for two transmit antennas 16.3.9.4.1.2 OL SU-MIMO subset for four transmit antennas 16.3.9.4.2 OL MU-MIMO subset
897	16.3.10 Channel coding and HARQ 16.3.10.1 Channel coding for the data channel 16.3.10.1.1 Burst CRC encoding 16.3.10.1.2 Burst partition
900	16.3.10.1.3 Randomization
901	16.3.10.1.4 FEC block CRC encoding 16.3.10.1.5 FEC encoding 16.3.10.1.5.1 Convolutional turbo codes
905	16.3.10.1.6 Bit selection and repetition
906	16.3.10.1.7 Bit collection 16.3.10.1.8 Modulation 16.3.10.2 Channel coding for control channel
907	16.3.10.2.1 TBCC encoder 16.3.10.2.2 Bit separation 16.3.10.2.3 Subblock interleaver
908	16.3.10.2.4 Bit grouping 16.3.10.2.5 Bit selection 16.3.10.3 Subcarrier randomization 16.3.10.3.1 PRBS for subcarrier randomization
909	16.3.10.3.2 Data subcarrier randomization 16.3.10.3.3 Pilot subcarrier randomization
911	16.3.10.4 HARQ 16.3.10.4.1 IR HARQ
912	16.3.10.4.2 Constellation rearrangement
913	16.3.11 Link adaptation 16.3.11.1 DL link adaptation 16.3.11.2 UL link adaptation
914	16.3.12 Error vector magnitude (EVM) and requirements 16.3.12.1 EVM definition 16.3.12.2 EVM requirements 16.3.13 Channel quality measurements 16.3.13.1 Introduction
915	16.3.13.2 RSSI mean and standard deviation 16.3.13.3 CINR mean and variance
916	16.3.13.4 SIR mean
917	16.3.13.5 Downlink noise and interference level mean and variance
918	16.3.14 Receiver requirements
919	16.4 Support for Femto ABS 16.4.1 General description 16.4.2 Femto base station subscription types 16.4.3 Femto ABS state diagram
920	16.4.4 PHY and MAC level identifier 16.4.4.1 PHY level cell identifier 16.4.4.2 CSG white list
921	16.4.5 Femto ABS initialization and de-attachment 16.4.5.1 Femto ABS attachment to the Macro ABS 16.4.5.2 Femto ABS deattachment from network 16.4.6 Network synchronization 16.4.7 Network entry 16.4.7.1 Femto ABS detection, identification, and selection
924	16.4.7.2 Manual femto ABS selection 16.4.7.3 Femto ABS access restrictions 16.4.7.4 Ranging 16.4.7.4.1 Ranging channel configuration 16.4.7.4.2 Ranging channel transmission
925	16.4.7.5 Femto ABS reselection by AMS
926	16.4.8 Handover (HO) 16.4.8.1 Network topology acquisition 16.4.8.1.1 Network topology advertisement 16.4.8.1.2 AMS scanning neighbor Femto ABSs
927	16.4.8.2 Trigger condition definitions 16.4.8.3 HO decision
928	16.4.8.4 HO from Macro ABS to Femto ABS 16.4.8.5 HO from Femto ABS to Macro ABS or other Femto ABS 16.4.8.6 HO between Femto ABS and legacy system BS 16.4.9 Idle mode 16.4.10 Low-duty operation mode 16.4.10.1 General description
929	16.4.10.2 Default LDM pattern(s) 16.4.11 Interference avoidance and interference mitigation
931	16.4.11.1 Interference mitigation trigger condition definitions
932	16.4.12 Power control 16.4.12.1 Downlink power control 16.4.13 Femto ABS reliability
933	16.5 Multi-BS MIMO 16.5.1 DL Multi-BS MIMO 16.5.1.1 DL/UL signaling
934	16.5.1.2 Single-BS precoding with multi-BS coordination 16.5.1.2.1 Operation procedure
936	16.5.1.3 DL multi-BS joint MIMO processing 16.5.1.3.1 Operation procedure
938	16.5.1.4 Multi-BS MIMO trigger mechanism
939	16.5.2 UL multi-BS MIMO 16.5.2.1 Single-BS precoding with multi-BS coordination 16.5.2.1.1 DL signaling 16.5.2.1.2 Operation procedure
940	16.5.2.2 UL multi-BS joint MIMO processing
941	16.6 Support for relay 16.6.1 Relay modes and general description 16.6.2 Medium access control 16.6.2.1 Addressing 16.6.2.1.1 Station identifier (STID) 16.6.2.1.2 Flow identifier (FID) 16.6.2.2 MAC PDU formats
942	16.6.2.3 Construction and transmission of MPDUs 16.6.2.3.1 Data forwarding scheme 16.6.2.3.2 Forwarding control messages between the ARS and the ASN 16.6.2.4 Security
944	16.6.2.5 Handover 16.6.2.5.1 Network topology advertisement
945	16.6.2.5.2 AMS scanning of neighbor ABSs/ARSs 16.6.2.5.3 AMS handover process 16.6.2.6 Scheduling and QoS 16.6.2.6.1 Connection management 16.6.2.7 Bandwidth request and grant management 16.6.2.8 ARQ
946	16.6.2.9 HARQ 16.6.2.9.1 Generic HARQ signaling and timing 16.6.2.9.1.1 A-MAP relevance and HARQ timing between ARS and AMS for TTR mode 16.6.2.9.1.1.1 FDD
948	16.6.2.9.1.1.2 TDD
950	16.6.2.9.1.2 A-MAP relevance and HARQ timing between ABS and ARS for TTR mode 16.6.2.9.1.2.1 FDD
952	16.6.2.9.1.2.2 TDD
954	16.6.2.9.2 Group resource allocation HARQ signaling and timing at ARS 16.6.2.9.3 Persistent allocation HARQ signaling and timing at ARS 16.6.2.10 Network entry 16.6.2.10.1 AMS network entry 16.6.2.10.2 ARS network entry 16.6.2.10.2.1 Relay station network entry
956	16.6.2.10.2.2 Handling of AMS initial ranging by the ARS 16.6.2.11 Ranging 16.6.2.11.1 ARS initial ranging 16.6.2.11.2 Handling of AMS and ARS periodic ranging 16.6.2.12 Sleep mode 16.6.2.13 Idle mode 16.6.2.14 ARS configuration 16.6.2.14.1 Parameter configuration during TTR ARS network entry
957	16.6.2.14.2 Parameter configuration update for TTR ARS operational mode 16.6.2.15 ARS deregistration 16.6.2.16 Update of SFH 16.6.2.16.1 Update of SFH information during ARS network entry 16.6.2.16.2 Update of SFH information during ARS operational mode 16.6.3 Physical layer for TTR relay mode 16.6.3.1 Basic frame structure supporting ARS
959	16.6.3.2 Frame structure 16.6.3.2.1 FDD frame structure
961	16.6.3.2.2 TDD frame structure
962	16.6.3.2.3 Set of frame configurations for ARS operation
963	16.6.3.3 Relay downlink PHY structure 16.6.3.3.1 MIMO midamble
964	16.6.3.3.2 Cell-specific resource mapping 16.6.3.3.3 Downlink data subcarrier mapping 16.6.3.4 Downlink control structure
965	16.6.3.4.1 Advanced preamble for relay 16.6.3.5 Relay uplink physical structure 16.6.3.5.1 Cell-specific resource mapping 16.6.3.5.2 Uplink data subcarrier mapping 16.6.3.6 Uplink control structure
966	16.6.4 Physical layer for STR relay mode
967	16.7 Support for self-organization 16.7.1 Self organization 16.7.2 Self configuration 16.7.2.1 Femto ABS neighbor discovery 16.7.2.2 Macro ABS neighbor list self-discovery 16.7.2.3 Femto ABS self configuration
968	16.7.3 Self optimization 16.7.3.1 Support of interference mitigation 16.7.3.2 Support of multi-BS MIMO 16.7.4 Support of reconfigurations and restart 16.7.5 AMS assisted Femto ABS neighbor list update
971	16.8 Support for location-based services (LBS) 16.8.1 Location determination capability negotiation 16.8.2 Basic LBS support 16.8.2.1 Basic functions supported using AAI-LBS-ADV message 16.8.2.2 Measurements and reporting for location determination
972	16.8.2.3 Assistance for satellite-based location determination 16.8.2.4 LBS message formats
975	16.8.3 Enhanced LBS support 16.8.3.1 Enhanced LBS support in downlink 16.8.3.1.1 Basic description of downlink LBS zone 16.8.3.1.2 Allocation of D-LBS zone in frame structure
976	16.8.3.2 D-LBS zone location beacon signals
977	16.8.3.3 Predefined D-LBS zone transmission plan 16.8.3.4 D-LBS zone measurement and report
979	16.9 Support for Enhanced Multicast Broadcast Service 16.9.1 E-MBS transmission modes 16.9.1.1 Non-macro-diversity mode
980	16.9.1.2 Macro-diversity mode 16.9.2 E-MBS operation
981	16.9.2.1 E-MBS connection establishment
982	16.9.2.2 E-MBS operation in connected state
983	16.9.2.3 E-MBS operation in Idle state 16.9.2.4 E-MBS Operation on the multicarrier deployment
984	16.9.3 E-MBS protocol features and functions 16.9.3.1 E-MBS configuration indicators 16.9.3.2 E-MBS zone configuration
985	16.9.3.3 E-MBS scheduling interval (MSI)
987	16.10 Support for Advanced Air Interface in LZone 16.10.1 Support for network topology advertisement 16.10.1.1 DL frame prefix 16.10.2 Support for zone switch operation 16.10.2.1 RNG-RSP management message encodings
988	16.10.2.2 RNG-REQ management message encodings
989	16.10.3 Migrating to AAI without impacting the deployed legacy network
991	16.11 Global values
999	Annex D (informative) Messages sequence charts (MSCs)
1003	Annex R (normative) Definition of AAI MAC control messages
1095	Annex S (informative) Test vectors
1099	Annex T (informative) Supported frequency bands
1101	Annex U (normative) Radio specifications for WirelessMAN-Advanced Air Interface
1105	Annex V (normative) Default capability class and parameters for an IEEE 802.16m system

Additional information

Standard Title	IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Broadband Wireless Access Systems Amendment 3: Advanced Air Interface
Published Code	IEEE
Publication Date	2011

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