IEEE P802.11be

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IEEE Draft Standard for Information technology–Telecommunications and information exchange between systems Local and metropolitan area networks–Specific requirements – Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications Amendment: Enhancements for Extremely High Throughput (EHT)

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IEEE	N/A	1031

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Description

Amendment Standard – Active – Draft.

PDF Catalog

PDF Pages	PDF Title
3	Introduction Laws and regulations Copyrights Updating of IEEE documents Errata
4	Patents
5	Participants
7	Contents
31	Figures
39	Tables
45	Editorial Notes
49	1. Overview 1.4 Word Usage 1.5 Terminology for mathematical, logical, and bit operations
51	3. Definitions, acronyms, and abbreviations 3.1 Definitions 3.2 Definitions specific to IEEE 802.11
60	3.4 Abbreviations and acronyms
61	4. General description 4.3 Components of the IEEE Std 802.11 architecture 4.3.5 Distribution system (DS) concepts 4.3.5.2 Extended service set (ESS): the large coverage network 4.3.16a Extremely high throughput (EHT) STA
63	4.3.21 Wireless network management 4.3.21.2 BSS max idle period management 4.3.21.2a MLD max idle period management 4.3.21.23 WNM sleep mode 4.5 Overview of the services 4.5.3 Connectivity-related services 4.5.3.1 General 4.5.3.2 Mobility types
64	4.5.3.3 Association
65	4.5.3.4 Reassociation
66	4.5.3.5 Disassociation
67	4.5.6 Traffic differentiation and QoS support 4.5.6.3 Support for predictable latency 4.5.13 EPCS priority access
68	4.9 Reference model 4.9.4 Reference model for multi-band operation 4.9.6 Reference model for multi-link operation (MLO)
73	5. MAC service definition 5.1 Overview of MAC services 5.1.5 MAC data service architecture 5.1.5.1 General
77	5.1.5.10 Non-AP MLD role 5.1.5.11 AP MLD role
79	6. Layer management 6.4 Table of MLME SAP interfaces
80	6.5 MLME SAP primitives 6.5.3 Scan 6.5.3.2 MLME-SCAN.request 6.5.3.2.2 Semantics of the service primitive
81	6.5.3.3 MLME-SCAN.confirm 6.5.3.3.2 Semantics of the service primitive
82	6.5.4 Synchronization 6.5.4.2 MLME-JOIN.request 6.5.4.2.2 Semantics of the service primitive
83	6.5.5 Authenticate 6.5.5.1 Introduction 6.5.5.2 MLME-AUTHENTICATE.request 6.5.5.2.2 Semantics of the service primitive 6.5.5.2.3 When generated
84	6.5.5.2.4 Effect of receipt 6.5.5.3 MLME-AUTHENTICATE.confirm 6.5.5.3.2 Semantics of the service primitive 6.5.5.4 MLME-AUTHENTICATE.indication 6.5.5.4.1 Function 6.5.5.4.2 Semantics of the service primitive
85	6.5.5.5 MLME-AUTHENTICATE.response 6.5.5.5.1 Function 6.5.5.5.2 Semantics of the service primitive 6.5.5.5.3 When generated
86	6.5.6 Deauthenticate 6.5.6.2 MLME-DEAUTHENTICATE.request 6.5.6.2.3 When generated 6.5.7 Associate 6.5.7.1 Introduction 6.5.7.2 MLME-ASSOCIATE.request 6.5.7.2.1 Function
87	6.5.7.2.2 Semantics of the service primitive
88	6.5.7.2.3 When generated 6.5.7.2.4 Effect of receipt 6.5.7.3 MLME-ASSOCIATE.confirm 6.5.7.3.1 Function 6.5.7.3.2 Semantics of the service primitive
89	6.5.7.3.3 When generated
90	6.5.7.4 MLME-ASSOCIATE.indication 6.5.7.4.1 Function 6.5.7.4.2 Semantics of the service primitive
91	6.5.7.5 MLME-ASSOCIATE.response 6.5.7.5.1 Function 6.5.7.5.2 Semantics of the service primitive
92	6.5.7.5.3 When generated 6.5.8 Reassociate 6.5.8.1 Introduction 6.5.8.2 MLME-REASSOCIATE.request 6.5.8.2.1 Function 6.5.8.2.2 Semantics of the service primitive
93	6.5.8.2.3 When generated 6.5.8.2.4 Effect of receipt 6.5.8.3 MLME-REASSOCIATE.confirm 6.5.8.3.1 Function
94	6.5.8.3.2 Semantics of the service primitive
95	6.5.8.3.3 When generated 6.5.8.4 MLME-REASSOCIATE.indication 6.5.8.4.2 Semantics of the service primitive
96	6.5.8.5 MLME-REASSOCIATE.response 6.5.8.5.1 Function 6.5.8.5.2 Semantics of the service primitive
97	6.5.8.5.3 When generated 6.5.9 Disassociate 6.5.9.1 MLME-DISASSOCIATE.request 6.5.9.1.3 When generated 6.5.11 Start 6.5.11.2 MLME-START.request 6.5.11.2.2 Semantics of the service primitive
98	6.5.11.2.3 When generated 6.5.12 Stop 6.5.12.2 MLME-Stop.request 6.5.12.2.3 When generated 6.5.24a EPCS priority access 6.5.24a.1 Introduction 6.5.24a.2 MLME-EPCSPRIACCESSENABLE.request 6.5.24a.2.1 Function
99	6.5.24a.2.2 Semantics of the service primitive 6.5.24a.2.3 When generated 6.5.24a.2.4 Effect of receipt 6.5.24a.3 MLME-EPCSPRIACCESSENABLE.confirm 6.5.24a.3.1 Function 6.5.24a.3.2 Semantics of the service primitive
100	6.5.24a.3.3 When generated 6.5.24a.3.4 Effect of receipt 6.5.24a.4 MLME-EPCSPRIACCESSENABLE.indication 6.5.24a.4.1 Function 6.5.24a.4.2 Semantics of the service primitive
101	6.5.24a.4.3 When generated 6.5.24a.4.4 Effect of receipt 6.5.24a.5 MLME-EPCSPRIACCESSENABLE.response 6.5.24a.5.1 Function 6.5.24a.5.2 Semantics of the service primitive
102	6.5.24a.5.3 When generated 6.5.24a.5.4 Effect of receipt 6.5.24a.6 MLME-EPCSPRIACCESSTEARDOWN.request 6.5.24a.6.1 Function 6.5.24a.6.2 Semantics of the service primitive 6.5.24a.6.3 When generated 6.5.24a.6.4 Effect of receipt 6.5.24a.7 MLME-EPCSPRIACCESSTEARDOWN.indication 6.5.24a.7.1 Function 6.5.24a.7.2 Semantics of the service primitive
103	6.5.24a.7.3 When generated 6.5.24a.7.4 Effect of receipt 6.5.24b TTLM 6.5.24b.1 Introduction 6.5.24b.2 MLME-TIDTOLINKMAPPING.request 6.5.24b.2.1 Function 6.5.24b.2.2 Semantics of the service primitive
104	6.5.24b.2.3 When generated 6.5.24b.2.4 Effect of receipt 6.5.24b.3 MLME-TIDTOLINKMAPPING.confirm 6.5.24b.3.1 Function 6.5.24b.3.2 Semantics of the service primitive 6.5.24b.3.3 When generated 6.5.24b.3.4 Effect of receipt 6.5.24b.4 MLME-TIDTOLINKMAPPING.indication 6.5.24b.4.1 Function
105	6.5.24b.4.2 Semantics of the service primitive 6.5.24b.4.3 When generated 6.5.24b.4.4 Effect of receipt 6.5.24b.5 MLME-TIDTOLINKMAPPING.response 6.5.24b.5.1 Function 6.5.24b.5.2 Semantics of the service primitive
106	6.5.24b.5.3 When generated 6.5.24b.5.4 Effect of receipt 6.5.24b.6 MLME-TIDTOLINKMAPPINGTEARDOWN.request 6.5.24b.6.1 Function 6.5.24b.6.2 Semantics of the service primitive 6.5.24b.6.3 When generated 6.5.24b.6.4 Effect of receipt 6.5.24b.7 MLME-TIDTOLINKMAPPINGTEARDOWN.indication 6.5.24b.7.1 Function 6.5.24b.7.2 Semantics of the service primitive
107	6.5.24b.7.3 When generated 6.5.24b.7.4 Effect of receipt 6.5.24c EML operating mode notification 6.5.24c.1 Introduction 6.5.24c.2 MLME-EMLOPERATINGMODENOTIF.request 6.5.24c.2.1 Function 6.5.24c.2.2 Semantics of the service primitive 6.5.24c.2.3 When generated
108	6.5.24c.2.4 Effect of receipt 6.5.24c.3 MLME-EMLOPERATINGMODENOTIF.indication 6.5.24c.3.1 Function 6.5.24c.3.2 Semantics of the service primitive 6.5.24c.3.3 When generated 6.5.24c.3.4 Effect of receipt 6.5.24d Link disable 6.5.24d.1 Introduction 6.5.24d.2 MLME-BSS-LINK-DISABLE.request 6.5.24d.2.1 Function
109	6.5.24d.2.2 Semantics of the service primitive 6.5.24d.2.3 When generated 6.5.24d.2.4 Effect of receipt 6.5.24d.3 MLME-BSS-LINK-DISABLE.confirm 6.5.24d.3.1 Function 6.5.24d.3.2 Semantics of the service primitive
110	6.5.24d.3.3 When generated 6.5.24d.3.4 Effect of receipt 6.5.24e Link enable 6.5.24e.1 Introduction 6.5.24e.2 MLME-BSS-LINK-ENABLE.request 6.5.24e.2.1 Function 6.5.24e.2.2 Semantics of the service primitive 6.5.24e.2.3 When generated 6.5.24e.2.4 Effect of receipt
111	6.5.24e.3 MLME-BSS-LINK-ENABLE.confirm 6.5.24e.3.1 Function 6.5.24e.3.2 Semantics of the service primitive 6.5.24e.3.3 When generated 6.5.24e.3.4 Effect of receipt 6.5.24f AP removal 6.5.24f.1 Introduction 6.5.24f.2 MLME-BSS-AP-REMOVAL.request 6.5.24f.2.1 Function 6.5.24f.2.2 Semantics of the service primitive
112	6.5.24f.2.3 When generated 6.5.24f.2.4 Effect of receipt 6.5.24f.3 MLME-BSS-AP-REMOVAL.confirm 6.5.24f.3.1 Function 6.5.24f.3.2 Semantics of the service primitive 6.5.24f.3.3 When generated 6.5.24f.3.4 Effect of receipt
114	7. DS SAP specification 7.1 Introduction
115	7.2 SAP primitives 7.2.3 Mapping updates 7.2.3.1 General
116	7.2.3.2 DS-STA-NOTIFY.request 7.2.3.2.2 Semantics of the service primitive 7.2.3.2.3 When generated 7.2.3.2.4 Effect of receipt
118	8. PHY service specification 8.3 Detailed PHY service specifications 8.3.5 PHY SAP detailed service specification 8.3.5.12 PHY-CCA.indication 8.3.5.12.2 Semantics of the service primitive
119	8.3.5.12.3 When generated
121	9. Frame formats 9.2 MAC frame formats 9.2.4 Frame fields 9.2.4.1 Frame Control field 9.2.4.1.3 Type and Subtype subfields 9.2.4.1.8 More Data subfield
122	9.2.4.3 Address field 9.2.4.3.8 TA field 9.2.4.5 QoS Control field 9.2.4.5.4 Ack Policy Indicator subfield
123	9.2.4.5.6 Queue Size subfield 9.2.4.6 HT Control field 9.2.4.6.1 General
124	9.2.4.6.4 HE variant
125	9.2.4.7 Control subfield variants of an A-Control subfield 9.2.4.7.1 TRS Control
126	9.2.4.7.6 BQR Control
127	9.2.4.7.8 EHT OM Control
129	9.2.4.7.9 SRS Control
130	9.2.4.7.10 AAR Control
131	9.2.4.7.11 ELA Control
136	9.2.4.8 Frame Body field 9.2.4.8.1 General
140	9.2.5 Duration/ID field (QoS STA) 9.2.5.2 Setting for single and multiple protection under enhanced distributed channel access (EDCA) 9.3 Format of individual frame types 9.3.1 Control frames 9.3.1.2 RTS frame format
141	9.3.1.5 PS-Poll frame format 9.3.1.5.1 General 9.3.1.6 CF-End frame format 9.3.1.7 BlockAckReq frame format 9.3.1.7.1 Overview
142	9.3.1.8 BlockAck frame format 9.3.1.8.2 Compressed BlockAck variant
143	9.3.1.8.7 Multi-STA BlockAck variant
144	9.3.1.19 VHT/HE NDP Announcement frame format 9.3.1.19.1 General description
147	9.3.1.19.2 VHT NDP Announcement frame format
148	9.3.1.19.3 HE NDP Announcement frame format
152	9.3.1.19.4 EHT NDP Announcement frame format
155	9.3.1.22 Trigger frame format 9.3.1.22.1 General
157	9.3.1.22.2 Common Info field
163	9.3.1.22.3 Special User Info field
166	9.3.1.22.4 HE variant User Info field
170	9.3.1.22.5 EHT variant User Info field
178	9.3.1.22.6 Basic Trigger frame format 9.3.1.22.7 BFRP Trigger frame format
179	9.3.1.22.8 MU-BAR Trigger frame format 9.3.1.22.9 MU-RTS Trigger frame format
182	9.3.1.22.10 BSRP Trigger frame format 9.3.1.22.11 GCR MU-BAR Trigger frame format 9.3.1.22.12 BQRP Trigger frame format 9.3.1.22.13 NFRP Trigger frame format
183	9.3.2 Data frames 9.3.2.1 Format of Data frames 9.3.2.1.2 Address and BSSID fields
184	9.3.3 (PV0) Management frames 9.3.3.2 Beacon frame format
185	9.3.3.5 Association Request frame format
186	9.3.3.6 Association Response frame format
187	9.3.3.7 Reassociation Request frame format
188	9.3.3.8 Reassociation Response frame format
189	9.3.3.9 Probe Request frame format
191	9.3.3.10 Probe Response frame format
192	9.3.3.11 Authentication frame format 9.3.3.13 Action frame format 9.4 Management and Extension frame body components 9.4.1 Fields that are not elements 9.4.1.4 Capability Information And Status Indication field
194	9.4.1.5 Current AP Address field 9.4.1.6 Listen Interval field
195	9.4.1.8 AID field 9.4.1.9 Status Code field
197	9.4.1.11 Action field
198	9.4.1.51 Operating Mode field
199	9.4.1.66 EHT MIMO Control field
201	9.4.1.67 EHT Compressed Beamforming Report field
205	9.4.1.68 EHT MU Exclusive Beamforming Report field
206	9.4.1.69 EHT CQI Report field
207	9.4.1.70 EML Control field
211	9.4.1.71 Link ID Info field 9.4.1.72 EMLSR Parameter Update field
212	9.4.2 Elements 9.4.2.1 General
213	9.4.2.3 Supported Rates and BSS Membership Selectors element 9.4.2.5 TIM element 9.4.2.5.1 General
214	9.4.2.19 Measurement Request element 9.4.2.19.5 Channel Load request
215	9.4.2.19.6 Noise Histogram request
216	9.4.2.19.7 Beacon request 9.4.2.19.8 Frame request
217	9.4.2.20 Measurement Report element 9.4.2.20.5 Channel Load report
218	9.4.2.20.6 Noise Histogram report
219	9.4.2.20.7 Beacon report 9.4.2.20.8 Frame report
220	9.4.2.21 Quiet element
221	9.4.2.25 Extended Capabilities element
222	9.4.2.35 Neighbor Report element
223	9.4.2.44 Multiple BSSID element
224	9.4.2.46 FTE
226	9.4.2.49 RIC Descriptor element 9.4.2.60 Link Identifier element
227	9.4.2.70 Nontransmitted BSSID Capability And Status element 9.4.2.77 BSS Max Idle Period element
228	9.4.2.120 SCS Descriptor element 9.4.2.138 ADDBA Extension element
229	9.4.2.156 VHT Capabilities element 9.4.2.156.3 Supported VHT-MCS and NSS Set field 9.4.2.161 Channel Switch Wrapper element 9.4.2.162 AID element
230	9.4.2.163 Quiet Channel element 9.4.2.169 Reduced Neighbor Report element 9.4.2.169.2 Neighbor AP Information field
233	9.4.2.176 FILS Request Parameters element 9.4.2.198 TWT element
238	9.4.2.216 Max Channel Switch Time element
239	9.4.2.235 OCI element 9.4.2.239 Non-Inheritance element 9.4.2.247 HE Capabilities element 9.4.2.247.4 Supported HE-MCS and NSS Set field
240	9.4.2.311 EHT Operation element
243	9.4.2.312 Multi-Link element 9.4.2.312.1 General
244	9.4.2.312.2 Basic Multi-Link element
257	9.4.2.312.3 Probe Request Multi-Link element
258	9.4.2.312.4 Reconfiguration Multi-Link element
262	9.4.2.312.5 TDLS Multi-Link element
263	9.4.2.312.6 EPCS Priority Access Multi-Link element
264	9.4.2.313 EHT Capabilities element 9.4.2.313.1 General
265	9.4.2.313.2 EHT MAC Capabilities Information field
268	9.4.2.313.3 EHT PHY Capabilities Information field
279	9.4.2.313.4 Supported EHT-MCS And NSS Set field
285	9.4.2.313.5 EHT PPE Thresholds field
288	9.4.2.314 TID-To-Link Mapping element
289	9.4.2.315 Multi-Link Traffic Indication element
291	9.4.2.316 QoS Characteristics element
295	9.4.2.317 MLO Link Information element
296	9.4.2.318 AID Bitmap element
297	9.4.2.319 Bandwidth Indication element
298	9.6 Action frame format details 9.6.2 Spectrum Management Action frame details 9.6.2.6 Channel Switch Announcement frame format 9.6.7 Public Action frame details 9.6.7.3 Measurement Pilot frame format
299	9.6.7.7 Extended Channel Switch Announcement frame format
300	9.6.7.16 TDLS Discovery Response frame format 9.6.7.36 FILS Discovery frame format
301	9.6.8 FT Action frame details 9.6.8.1 FT Action fieldl 9.6.8.2 FT Request frame
302	9.6.8.3 FT Response frame 9.6.8.4 FT Confirm frame
303	9.6.8.5 FT Ack frame
304	9.6.12 TDLS Action field formats 9.6.12.2 TDLS Setup Request Action field format 9.6.12.3 TDLS Setup Response Action field format
305	9.6.12.4 TDLS Setup Confirm Action field format 9.6.12.7 TDLS Channel Switch Request Action field format 9.6.12.12 TDLS Discovery Request Action field format
306	9.6.13 WNM Action details 9.6.13.8 BSS Transition Management Query frame format 9.6.13.9 BSS Transition Management Request frame format
308	9.6.13.10 BSS Transition Management Response frame format
309	9.6.13.20 WNM Sleep Mode Response frame format
311	9.6.15 Self-protected Action frame details 9.6.15.2 Mesh Peering Open frame format 9.6.15.2.2 Mesh Peering Open frame details 9.6.15.3 Mesh Peering Confirm frame format 9.6.15.3.2 Mesh Peering Confirm frame details
312	9.6.18 Robust AV Streaming Action frame details 9.6.18.3 SCS Response frame format 9.6.24 Unprotected S1G Action frame detail 9.6.24.8 TWT Setup frame format
313	9.6.34 EHT Action frame details 9.6.34.1 EHT Action field 9.6.34.2 EHT Compressed Beamforming/CQI frame format
314	9.6.35 Protected EHT Action frame details 9.6.35.1 Protected EHT Action field 9.6.35.2 TID-To-Link Mapping Request frame format
315	9.6.35.3 TID-To-Link Mapping Response frame format
316	9.6.35.4 TID-To-Link Mapping Teardown frame format 9.6.35.5 EPCS Priority Access Enable Request frame format
317	9.6.35.6 EPCS Priority Access Enable Response frame format 9.6.35.7 EPCS Priority Access Teardown frame details
318	9.6.35.8 EML Operating Mode Notification frame details
319	9.6.35.9 Link Recommendation frame format 9.6.35.10 Multi-Link Operation Update Request frame format
320	9.6.35.11 Multi-Link Operation Update Response frame format 9.6.35.12 Link Reconfiguration Notify frame format
321	9.6.35.13 Link Reconfiguration Request frame format
322	9.6.35.14 Link Reconfiguration Response frame format
323	9.7 Aggregate MPDU (A-MPDU) 9.7.1 A-MPDU format
325	9.7.3 A-MPDU contents
329	10. MAC sublayer functional description 10.1 Introduction 10.2 MAC architecture 10.2.1 General
330	10.3 DCF 10.3.1 General 10.3.2 Procedures common to the DCF and EDCAF 10.3.2.7 VHT, HE and S1G RTS procedure
331	10.3.2.9 CTS and DMG CTS procedure
332	10.3.2.11 Acknowledgment procedure 10.3.2.14 Duplicate detection and recovery 10.3.2.14.2 Transmitter requirements
335	10.3.2.14.3 Receiver requirements
338	10.6 Multirate support 10.6.1 Overview
339	10.6.6 Rate selection for Control frames 10.6.6.1 General rules for rate selection for Control frames 10.6.6.6 Channel Width selection for Control frames
340	10.6.10 Modulation classes
350	10.6.11 Non-HT basic rate calculation
351	10.8 HT Control field operation
352	10.11 A-MSDU operation 10.12 A-MPDU operation 10.12.2 A-MPDU length limit rules
355	10.12.3 Minimum MPDU start spacing rules
356	10.12.4 A-MPDU aggregation of group addressed Data frames
357	10.12.6 A-MPDU padding for VHT, HE, EHT or S1G PPDU 10.12.7 Setting the EOF/Tag field of the MPDU delimiter 10.13 PPDU duration constraint
358	10.15 Low-density parity check code (LDPC) operation 10.23 HCF 10.23.2 HCF contention based channel access (EDCA) 10.23.2.2 EDCA backoff procedure
359	10.23.2.5 EDCA channel access in a VHT, HE, EHT or TVHT BSS 10.23.2.9 TXOP limits 10.25 Block acknowledgment (block ack) 10.25.1 Introduction
360	10.25.2 Setup and modification of the block ack parameters 10.25.7 Protected block ack agreement
361	10.27 Protection mechanisms 10.27.6 Protection rules for HE STAs 10.27.8 Protection rules for EHT STAs 10.28 MAC frame processing 10.28.5 Operation of the Dialog Token field
362	10.29 Reverse direction protocol 10.29.4 Rules for RD responder
363	11. MLME 11.1 Synchronization 11.1.4 Acquiring synchronization, scanning 11.1.4.3 Active scanning and probing procedures 11.1.4.3.4 Criteria for sending a response 11.1.4.3.9 Contents of a probe response 11.2 Power management 11.2.2 Bufferable MMPDUs
364	11.2.3 Power management in a non-DMG infrastructure network 11.2.3.1 General 11.2.3.6 AP operation 11.2.3.7 Receive operation for STAs in PS mode
365	11.2.3.9 STAs operating in active mode 11.2.3.10 AP and AP MLD aging function 11.2.3.14 TIM Broadcast
366	11.2.3.15 WNM sleep mode 11.2.3.15.1 WNM sleep mode capability 11.2.3.15.2 WNM sleep mode non-AP STA operation 11.2.3.15.3 WNM sleep mode AP operation
367	11.3 STA authenticationAuthentication and association 11.3.1 General 11.3.2 State variables
368	11.3.3 State transition diagram for nonmesh STAs or nonmesh MLDs
369	11.3.4 Frame filtering based on STA or MLD state
370	11.3.5 Authentication and deauthentication 11.3.5.1 General
371	11.3.5.2 Authentication—originating STA or MLD
372	11.3.5.3 Authentication—destination STA or MLD
373	11.3.5.4 Deauthentication—originating STA or MLD 11.3.5.5 Deauthentication—destination STA or MLD
374	11.3.6 Association, reassociation, and disassociation 11.3.6.1 General
375	11.3.6.2 Non-AP STA, non-AP MLD, and non-PCP STA association initiation procedures
377	11.3.6.3 AP, AP MLD, or PCP association receipt procedures
379	11.3.6.4 Non-AP STA, non-AP MLD, and non-PCP STA reassociation initiation procedures
382	11.3.6.5 AP, AP MLD, or PCP reassociation receipt procedures
385	11.3.6.6 Non-AP STA, non-AP MLD, and non-PCP STA disassociation initiation procedures
386	11.3.6.7 Non-AP STA, non-AP MLD, and non-PCP STA disassociation receipt procedure
387	11.3.6.8 AP, AP MLD, or PCP disassociation initiation procedure 11.3.6.9 AP, AP MLD, or PCP disassociation receipt procedure
388	11.8 DFS procedures 11.8.3 Quieting channels for testing 11.10 Radio measurement procedures 11.10.9 Specific measurement usage 11.10.9.1 Beacon report 11.10.9.1.1 General 11.10.9.2 Frame report
389	11.10.9.3 Channel load report 11.10.9.4 Noise Histogram report 11.10.15 Measurement Pilot frame generation and usage 11.10.15.2 Measurement Pilot frame generation by an AP 11.13 SA Query procedures
390	11.20 Tunneled direct link setup 11.20.1 General
392	11.20.6 TDLS channel switching 11.20.6.5 Setting up a wide bandwidth off-channel TDLS direct link 11.20.6.5.1 General 11.20.6.5.2 Basic wideband functionality
393	11.20.6.5.5 CCA sensing and NAV assertion in a 20 MHz, 40 MHz, 80 MHz, 160 MHz, 320 MHz, 80+80 MHz, 1 MHz, 2 MHz, 4 MHz, 8 MHz, or 16 MHz TDLS direct link 11.21 Wireless network management procedures 11.21.2 Event request and report procedures 11.21.2.2 Transition event request and report 11.21.2.3 RSNA event request and report 11.21.2.5 WNM log event request and report
394	11.21.13 BSS max idle period management 11.21.14 Proxy ARP service
396	11.22 WLAN interworking with external networks procedures 11.22.2 Interworking capabilities and information 11.22.3 Interworking procedures: generic advertisement service (GAS) 11.22.3.3 ANQP procedures 11.22.3.3.10 TDLS Capability procedure 11.24 Quality-of-service Management frame (QMF) 11.24.1 General 11.24.1.2 Default QMF policy
397	11.25 Robust AV streaming 11.25.2 SCS procedures 11.49 Reduced neighbor report
398	11.52 Beacon frame protection procedures
401	12. Security 12.1 Conventions 12.2 Framework 12.2.4 RSNA establishment 12.2.10 Requirements for support of MAC privacy enhancements
402	12.3 Pre-RSNA security methods 12.3.3 Pre-RSNA authentication 12.3.3.1 Overview 12.3.3.2 Open System authentication 12.3.3.2.1 General
403	12.3.3.2.2 Open System authentication (first frame) 12.3.3.2.3 Open System authentication (final frame) 12.4 Authentication using a password 12.4.1 SAE overview
404	12.4.3 Representation of a password 12.4.4 Finite cyclic groups 12.4.4.1 General
405	12.4.4.2 Elliptic curve cryptography (ECC) groups 12.4.4.2.2 Generation of the password element with ECC groups by looping 12.4.4.2.3 Hash-to-element generation of the password element with ECC groups
406	12.4.4.3 Finite field cryptography (FFC) groups 12.4.4.3.2 Generation of the password element with FFC groups by looping 12.4.4.3.3 Direct Generation of the password element with FFC groups 12.4.5 SAE protocol 12.4.5.2 PWE and secret generation
407	12.4.5.4 Processing of a peer’s SAE Commit message 12.4.6 Anti-clogging tokens
408	12.4.8 SAE finite state machine 12.4.8.3 Events and output 12.4.8.3.1 Parent process events and output 12.5 RSNA confidentiality and integrity protocols 12.5.2 CTR with CBC-MAC protocol (CCMP) 12.5.2.3 CCMP cryptographic encapsulation 12.5.2.3.1 General
409	12.5.2.3.2 PN processing 12.5.2.3.3 Construct AAD
410	12.5.2.3.4 Construct CCM nonce
411	12.5.2.3.7 CCM originator processing 12.5.2.4 CCMP decapsulation 12.5.2.4.1 General 12.5.2.4.4 PN and replay detection
412	12.5.4 GCM protocol (GCMP) 12.5.4.1 GCMP overview
413	12.5.4.3 GCMP cryptographic encapsulation 12.5.4.3.1 General 12.5.4.3.2 PN processing
414	12.5.4.3.4 Construct GCM nonce 12.5.4.3.6 GCM originator processing 12.5.4.4 GCMP decapsulation 12.5.4.4.1 General
415	12.5.4.4.4 PN and replay detection 12.6 RSNA security association management 12.6.1 Security associations 12.6.1.1 Security association definitions 12.6.1.1.2 PMKSA
416	12.6.1.1.6 PTKSA 12.6.1.1.8 GTKSA
417	12.6.1.1.9 IGTKSA
418	12.6.1.1.11 BIGTKSA 12.6.2 RSNA selection 12.6.3 RSNA policy selection in an infrastructure BSS 12.6.3.1 General
419	12.6.3.2 RSNA policy selection for MLO 12.6.8 RSNA establishment in an infrastructure BSS 12.6.8.2 Preauthentication and RSNA key management 12.6.12 RSNA key management in an infrastructure BSS
420	12.6.19 RSNA rekeying 12.7 Keys and key distribution 12.7.1 Key hierarchy 12.7.1.1 General
421	12.7.1.4 Group key hierarchy 12.7.2 EAPOL-Key frames
425	12.7.4 EAPOL-Key PDU notation
426	12.7.5 Nonce generation 12.7.6 4-way handshake 12.7.6.1 General
427	12.7.6.2 4-way handshake message 1
428	12.7.6.3 4-way handshake message 2
430	12.7.6.4 4-way handshake message 3
433	12.7.6.5 4-way handshake message 4 12.7.7 Group key handshake 12.7.7.1 General
434	12.7.7.2 Group key handshake message 1
436	12.7.8 TDLS PeerKey (TPK) security protocol 12.7.8.2 TPK handshake
437	12.7.8.4 TPK Security Protocol handshake messages 12.7.8.4.3 TPK handshake message 2
438	12.7.8.4.4 TPK handshake message 3 12.12 Constraints on allowed security parameters 12.12.3 Security constraints for EHT
440	13. Fast BSS transition 13.1 Overview 13.2 Key holders 13.2.1 Introduction
441	13.2.2 Authenticator key holders 13.2.3 Supplicant key holders 13.3 Capability and policy advertisement 13.4 FT initial mobility domain association 13.4.1 Overview
442	13.4.2 FT initial mobility domain association in an RSN
444	13.4.3 FT initial mobility domain association in a non-RSN
445	13.5 FT protocol 13.5.1 Overview
446	13.5.2 Over-the-air FT protocol authentication in an RSN
448	13.5.3 Over-the-DS FT protocol in an RSN
451	13.6 FT resource request protocol 13.6.1 Introduction
452	13.6.2 Over-the-air fast BSS transition with resource request
454	13.6.3 Over-the-DS fast BSS transition with resource request
456	13.7 FT reassociation 13.7.1 FT reassociation in an RSN
458	13.8 FT authentication sequence 13.8.1 Overview
460	13.8.2 FT authentication sequence: contents of first message 13.8.3 FT authentication sequence: contents of second message 13.8.4 FT authentication sequence: contents of third message
461	13.8.5 FT authentication sequence: contents of fourth message
463	13.9 FT security architecture state machines 13.9.1 Introduction 13.9.5 S1KH state machine 13.9.5.3 S1KH state machine variables
464	13.10 Remote request broker (RRB) communication 13.10.1 Overview 13.10.2 Remote request broker (RRB)
465	13.10.3 Remote Request/Response frame definition
466	13.11 Resource request procedures 13.11.1 General 13.11.2 Resource information container (RIC)
467	13.11.3 Creation and handling of a resource request 13.11.3.1 FTO procedures 13.11.3.2 APFTR procedures
470	17. Orthogonal frequency division multiplexing (OFDM) PHY specification 17.2 OFDM PHY specific service parameter list 17.2.2 TXVECTOR parameters
471	17.2.3 RXVECTOR parameters 17.3 OFDM PHY 17.3.5 DATA field 17.3.5.2 SERVICE field
472	17.3.5.5 PHY DATA scrambler and descrambler
477	26. High efficiency (HE) MAC specification 26.2 HE channel access 26.2.6 MU-RTS Trigger/CTS frame exchange sequence procedure 26.2.6.3 CTS frame sent in response to an MU-RTS Trigger frame 26.5 MU operation 26.5.1 HE DL MU operation 26.5.1.1 General 26.5.1.1a Additional rules on an HE MU PPDU
478	26.5.1.3 RU allocation in an HE MU PPDU 26.5.1.3a Minimum RU allocation in an HE MU PPDU 26.5.2 UL MU operation 26.5.2.1 General 26.5.2.2 Rules for soliciting UL MU frames 26.5.2.2.1 General
479	26.5.2.2.1a Additional rules for soliciting UL MU frames 26.5.2.2.3 Padding for a triggering frame 26.5.2.3 Non-AP STA behavior for UL MU operation 26.5.2.3.1 General 26.5.2.3.4 TXVECTOR parameters for HE TB PPDU response to TRS Control subfield
480	26.8 TWT operation 26.8.3 Broadcast TWT operation 26.8.3.3 Rules for TWT scheduled STA 26.10 HE spatial reuse operation 26.10.2 OBSS PD-based spatial reuse operation 26.10.2.2 General operation with non-SRG OBSS PD level
481	26.10.2.3 General operation with SRG OBSS PD level
482	26.17 HE BSS operation 26.17.2 HE BSS operation in the 6 GHz band 26.17.2.1 General
483	35. Extremely high throughput (EHT) MAC specification 35.1 Introduction 35.2 EHT channel access 35.2.1 TXOP 35.2.1.1 Bandwidth signaling 35.2.1.2 Triggered TXOP sharing procedure 35.2.1.2.1 General
484	35.2.1.2.2 AP behavior
486	35.2.1.2.3 Non-AP STA behavior
488	35.2.2 MU-RTS Trigger/CTS frame exchange procedure for EHT STAs 35.2.2.1 MU-RTS Trigger frame transmission 35.2.2.2 CTS frame response to an MU-RTS Trigger frame
489	35.2.3 Intra-BSS and inter-BSS PPDU classification for EHT STA 35.3 Multi-link operation 35.3.1 General
490	35.3.2 Multi-link device addressing
491	35.3.3 Advertisement of multi-link information in Multi-Link element 35.3.3.1 General
492	35.3.3.2 Link ID 35.3.3.3 Advertisement of complete or partial per-link information
493	35.3.3.4 Fields and elements not carried in a per-STA profile
494	35.3.3.5 Inheritance in a per-STA profile 35.3.3.5.1 Inheritance in the per-STA profile of Basic Multi-Link element
496	35.3.3.5.2 Inheritance in the per-STA profile of Probe Request Multi-Link element 35.3.3.6 Processing of Per-STA Profile subelement of Multi-Link element
497	35.3.3.7 Subelement fragmentation in the Link Info field of a Multi-Link element
499	35.3.4 Discovery of an AP MLD 35.3.4.1 AP behavior
500	35.3.4.2 Use of multi-link probe request and response
502	35.3.4.3 Non-AP MLD behavior
503	35.3.4.4 Multi-Link element usage in the context of discovery 35.3.4.5 Probe Request frame content for a non-AP EHT STA
504	35.3.4.6 Frame exchange sequences during MLO discovery and ML setup
507	35.3.5 ML (re)setup 35.3.5.1 ML (re)setup procedure
509	35.3.5.2 ML security
510	35.3.5.3 Multi-link tear down procedure 35.3.5.4 Basic Multi-Link element usage in the context of ML (re)setup, authentication, and FT action frame exchange between two MLDs
511	35.3.6 ML reconfiguration 35.3.6.1 General 35.3.6.2 Adding affiliated APs
512	35.3.6.3 Removing affiliated APs
515	35.3.6.4 ML reconfiguration to the ML setup
519	35.3.6.5 AP MLD recommendation for ML reconfiguration 35.3.7 Link management 35.3.7.1 General
520	35.3.7.2 TTLM 35.3.7.2.1 General
522	35.3.7.2.2 Default mapping mode 35.3.7.2.3 Negotiation of TTLM
523	35.3.7.2.4 Advertised TTLM in Beacon and Probe Response frames
526	35.3.7.2.5 Association procedures for TTLM
527	35.3.7.3 Dynamic link transitions 35.3.7.4 Link recommendation 35.3.7.5 Affiliated AP link disablement and enablement 35.3.7.5.1 General 35.3.7.5.2 Affiliated AP link disablement
529	35.3.7.5.3 Affiliated AP link enablement
530	35.3.7.6 Non-AP MLD operation parameter update
531	35.3.8 Block ack procedures in Multi-link operation
534	35.3.9 Fragmentation in multi-link operation 35.3.10 BSS parameter critical update procedure
537	35.3.11 Multi-link procedures for (extended) channel switching and channel quieting
540	35.3.12 Multi-link power management 35.3.12.1 General 35.3.12.2 Basic BSS operation
541	35.3.12.3 MLD max idle period management 35.3.12.4 Traffic indication
544	35.3.12.5 WNM sleep mode in multi-link operation
545	35.3.12.6 Operation for MLD listen interval 35.3.12.7 Power state after link enablement
546	35.3.12.8 Power state and TWT schedules after link disablement 35.3.12.9 Use of More Data subfield by an MLD
547	35.3.13 Multi-link device individually addressed data delivery without block ack negotiation
548	35.3.14 Multi-link device individually addressed Management frame delivery 35.3.14.1 General
550	35.3.14.2 QMF
551	35.3.14.3 Identification of the intended STA
552	35.3.15 Multi-link operation group addressed frames 35.3.15.1 AP MLD operation for group addressed frames
553	35.3.15.2 Non-AP MLD receive operation for group addressed frames
554	35.3.16 Multi-link channel access 35.3.16.1 General 35.3.16.2 Multi-link device capability and operation signaling 35.3.16.2.1 General
555	35.3.16.3 Simultaneous transmit and receive (STR) operation
556	35.3.16.4 Nonsimultaneous transmit and receive (NSTR) operation 35.3.16.5 PPDU end time alignment on an NSTR link pair 35.3.16.5.1 General
558	35.3.16.5.2 End time alignment of response PPDUs using SRS Control field
559	35.3.16.6 Start time sync PPDUs medium access
560	35.3.16.7 Error recovery on an NSTR link pair within PIFS 35.3.16.8 Medium access recovery procedure 35.3.16.8.1 General
561	35.3.16.8.2 MediumSyncDelay OFDM ED based recovery procedure
562	35.3.16.8.3 AP assisted medium synchronization recovery procedure
563	35.3.16.9 ML retransmit procedures 35.3.17 Enhanced multi-link single radio operation
568	35.3.18 Enhanced multi-link multi-radio operation
571	35.3.19 NSTR mobile AP MLD operation 35.3.19.1 General
572	35.3.19.2 Discovery of an NSTR mobile AP MLD
573	35.3.19.3 NSTR mobile AP MLD multi-link procedures for channel switching, extended channel switching, and channel quieting 35.3.20 Multi-link operation in a multiple BSSID set or co-hosted BSSID set
575	35.3.21 TDLS procedure in multi-link operation 35.3.21.1 General 35.3.21.2 TDLS direct link over a single link
577	35.3.22 Proxy ARP service in AP MLDs 35.3.23 BSS transition management for MLDs
578	35.3.24 TWT operation 35.3.24.1 General 35.3.24.2 Individual TWT agreements 35.3.24.2.1 General
579	35.3.24.2.2 Alignment of TWT agreements across multiple links
580	35.3.24.3 Broadcast TWT operation 35.3.24.4 Flexible wake time operation
581	35.4 EHT acknowledgment procedure 35.4.1 Overview
582	35.4.2 Block ack procedures
583	35.5 MU operation 35.5.1 EHT DL MU operation 35.5.1.1 General 35.5.1.2 RU allocation in an EHT MU PPDU
584	35.5.2 EHT UL MU operation 35.5.2.1 General
585	35.5.2.2 Rules for soliciting UL MU frames 35.5.2.2.1 General 35.5.2.2.2 Requirements for allocating resources 35.5.2.2.3 Padding for a triggering frame
586	35.5.2.2.4 Allowed settings of the Trigger frame fields and TRS Control subfield
587	35.5.2.2.5 AP access procedures for UL MU operation
588	35.5.2.3 Non-AP STA behavior for UL MU operation 35.5.2.3.1 General 35.5.2.3.2 TXVECTOR parameters for EHT TB PPDU response to Trigger frame
589	35.5.2.3.3 TXVECTOR parameters for EHT TB PPDU response to TRS Control subfield
590	35.5.2.3.4 Conditions for not responding with a TB PPDU 35.5.2.4 UL MU CS mechanism for EHT STAs
591	35.5.3 Operation of the two BQR Control subfields 35.6 A-MPDU operation in an EHT PPDU
592	35.7 EHT sounding operation 35.7.1 General
593	35.7.2 EHT sounding protocol
606	35.7.3 Rules for EHT sounding protocol sequences
610	35.7.4 Rules for generating segmented feedback 35.7.5 EHT sounding NDP transmission
611	35.8 Restricted TWT (R-TWT) 35.8.1 General
612	35.8.2 R-TWT membership setup 35.8.3 R-TWT announcement 35.8.3.1 Rules for R-TWT scheduling AP
614	35.8.3.2 Rules for R-TWT scheduled STA 35.8.4 Channel access rules for R-TWT SPs 35.8.4.1 TXOP and backoff procedures rules for R-TWT SPs
615	35.8.4.2 Quieting STAs during R-TWT SPs
616	35.8.5 Traffic delivery 35.9 Operating mode indication
617	35.10 EHT Spatial reuse operation 35.10.1 General 35.10.2 OBSS PD-based spatial reuse operation
618	35.10.3 EHT PSR-based spatial reuse operation 35.10.3.1 EHT PSR-based spatial reuse initiation
619	35.10.3.2 EHT Spatial Reuse subfields of Trigger frame 35.11 Rules related to the PHY interface of an EHT STA 35.11.1 Setting TXVECTOR parameters for an EHT PPDU 35.11.1.1 STA_ID 35.11.1.2 POWER_BOOST_FACTOR
620	35.11.1.3 UPLINK_FLAG 35.11.1.4 BSS_COLOR 35.11.1.5 TXOP_DURATION 35.11.1.6 TRIGGER_RESPONDING 35.11.2 SPATIAL_REUSE
622	35.11.3 Contents of the EHT PHY Capabilities Information field and Supported EHT-MCS And NSS Set field
624	35.11.4 CENTER_FREQUENCY_SEGMENT 35.11.5 INACTIVE_SUBCHANNELS
625	35.12 Intra-PPDU power save for non-AP EHT STAs 35.13 Nominal packet padding values selection rules 35.13.1 General 35.13.2 PPET not present in both HE and EHT
626	35.13.3 PPET not present in EHT but present in HE
627	35.13.4 PPET present in EHT
629	35.13.5 STA behavior related to nominal packet padding
630	35.14 PPDU format, BW, MCS, NSS, and DCM selection rules 35.14.1 General 35.14.2 PPDU format selection
631	35.14.3 MCS, NSS, BW selection
632	35.14.4 Rate selection constraints for EHT STAs 35.14.4.1 Receive EHT-MCS and NSS Set
633	35.14.4.2 Transmit EHT-MCS and NSS Set 35.14.4.3 Additional rate selection constraints for EHT PPDUs 35.14.5 Additional rules for group addressed frames except Beacon frame
634	35.14.6 Additional rules for group addressed frames in an EHT MU PPDU with the TXVECTOR parameter EHT_PPDU_TYPE not equal to 1 except Beacon frame
635	35.15 EHT BSS operation 35.15.1 Basic EHT BSS operation
638	35.15.2 Preamble puncturing operation
639	35.15.3 Channel switching methods for an EHT BSS
640	35.16 EPCS priority access 35.16.1 General
641	35.16.2 EPCS priority access operation 35.16.2.1 General 35.16.2.2 Setup procedures for EPCS priority access 35.16.2.2.1 General
642	35.16.2.2.2 Procedures at the initiating EPCS non-AP MLD
643	35.16.2.2.3 Procedures at the initiating EPCS AP MLD
644	35.16.2.2.4 Procedure at the receiving AP MLD
645	35.16.2.2.5 Procedures at the receiving non-AP MLD 35.16.3 EPCS priority access procedure 35.16.3.1 General 35.16.3.2 EDCA operation using EPCS EDCA parameters
647	35.16.3.3 Maintenance procedures for EPCS priority access 35.16.3.3.1 Procedures at the initiating AP MLD 35.16.3.3.2 Procedures at the receiving non-AP MLD 35.17 EHT SCS procedure
650	35.18 EHT MSCS procedure 35.19 EHT link adaptation using ELA Control subfield
653	36. Extremely high throughput (EHT) PHY specification 36.1 Introduction 36.1.1 Introduction to the EHT PHY
658	36.1.2 Scope
659	36.1.3 EHT PHY functions 36.1.3.1 General 36.1.3.2 PHY management entity (PLME) 36.1.3.3 Service specification method 36.1.4 PPDU formats
660	36.2 EHT PHY service interface 36.2.1 Introduction 36.2.2 TXVECTOR and RXVECTOR parameters
675	36.2.3 TRIGVECTOR parameters
677	36.2.4 PHYCONFIG_VECTOR
678	36.2.5 Effect of CH_BANDWIDTH parameter on PPDU format
679	36.2.6 Support for non-HT, HT, VHT, and HE formats 36.2.6.1 General
681	36.2.6.2 Support for non-HT format
683	36.2.6.3 Support for HT format 36.2.6.4 Support for VHT format
684	36.2.6.5 Support for HE format 36.3 EHT PHY 36.3.1 Introduction
685	36.3.2 Subcarrier and resource allocation 36.3.2.1 Subcarriers and resource allocation in EHT PPDUs
692	36.3.2.2 Subcarriers and resource allocation for multiple RUs 36.3.2.2.1 General 36.3.2.2.2 Small size MRUs
702	36.3.2.2.3 Large size MRUs
713	36.3.2.3 Null subcarriers
714	36.3.2.4 Pilot subcarriers 36.3.2.5 20 MHz operating non-AP EHT STAs participating in wider bandwidth OFDMA
715	36.3.2.6 RU and MRU restrictions for 20 MHz operation
717	36.3.2.7 80 MHz operating non-AP EHT STAs participating in wider bandwidth OFDMA 36.3.2.8 160 MHz operating non-AP EHT STAs participating in wider bandwidth OFDMA
718	36.3.3 MU-MIMO 36.3.3.1 DL MU-MIMO 36.3.3.1.1 Supported RU or MRU sizes in DL MU-MIMO 36.3.3.1.2 Maximum number of spatial streams in an EHT MU PPDU
719	36.3.3.2 UL MU-MIMO 36.3.3.2.1 Introduction 36.3.3.2.2 Supported RU or MRU sizes in UL MU-MIMO
720	36.3.3.2.3 UL MU-MIMO EHT-LTF mode 36.3.3.2.4 Maximum number of spatial streams in UL MU-MIMO
721	36.3.3.3 Maximum number of users in MU-MIMO 36.3.4 EHT PPDU formats
722	36.3.5 EHT DUP transmission
723	36.3.6 Transmitter block diagram
731	36.3.7 Overview of the PPDU encoding process 36.3.7.1 General 36.3.7.2 Construction of L-STF
732	36.3.7.3 Construction of L-LTF 36.3.7.4 Construction of L-SIG 36.3.7.5 Construction of RL-SIG
733	36.3.7.6 Construction of U-SIG
734	36.3.7.7 Construction of EHT-SIG 36.3.7.8 Construction of EHT-STF
735	36.3.7.9 Construction of EHT-LTF 36.3.7.10 Construction of Data field in an EHT PPDU
736	36.3.8 EHT modulation and coding schemes (EHT-MCSs) 36.3.9 EHT-SIG modulation and coding schemes (EHT-SIG-MCSs)
737	36.3.10 Timing-related parameters
743	36.3.11 Mathematical description of signals 36.3.11.1 Notation 36.3.11.2 Subcarrier indices in use
744	36.3.11.3 Channel frequencies
745	36.3.11.4 Transmitted signal
752	36.3.12 EHT preamble 36.3.12.1 Introduction
753	36.3.12.2 Cyclic shift 36.3.12.2.1 Cyclic shift for pre-EHT modulated fields 36.3.12.2.2 Cyclic shift for EHT modulated fields 36.3.12.3 L-STF
754	36.3.12.4 L-LTF 36.3.12.5 L-SIG
756	36.3.12.6 RL-SIG
757	36.3.12.7 U-SIG 36.3.12.7.1 General 36.3.12.7.2 Content
770	36.3.12.7.3 Encoding and modulation
772	36.3.12.8 EHT-SIG 36.3.12.8.1 General
773	36.3.12.8.2 EHT-SIG content channels
776	36.3.12.8.3 Common field for OFDMA transmission
788	36.3.12.8.4 Common field for non-OFDMA transmission
791	36.3.12.8.5 User Specific field
799	36.3.12.8.6 Encoding and modulation
807	36.3.12.9 EHT-STF
811	36.3.12.10 EHT-LTF
818	36.3.12.11 EHT preamble of preamble punctured EHT MU PPDU 36.3.12.11.1 General
819	36.3.12.11.2 Preamble puncturing for EHT MU PPDUs in an OFDMA transmission 36.3.12.11.3 Preamble puncturing for EHT MU PPDUs in a non-OFDMA transmission
820	36.3.12.11.4 Preamble puncturing for EHT TB PPDUs 36.3.13 Data field 36.3.13.1 SERVICE field 36.3.13.2 EHT PHY DATA scrambler and descrambler
821	36.3.13.3 Coding 36.3.13.3.1 General
822	36.3.13.3.2 BCC coding 36.3.13.3.3 LDPC coding 36.3.13.3.4 EHT PPDU padding process
823	36.3.13.3.5 Encoding process for an EHT MU PPDU
827	36.3.13.3.6 Encoding process for an EHT TB PPDU
828	36.3.13.4 Stream parser 36.3.13.5 Segment parser
833	36.3.13.6 BCC interleavers
834	36.3.13.7 Constellation mapping
837	36.3.13.8 LDPC tone mapper
839	36.3.13.9 Segment deparser
840	36.3.13.10 Frequency domain duplication
841	36.3.13.11 Pilot subcarriers
846	36.3.13.12 OFDM modulation
847	36.3.13.13 Dual carrier modulation
848	36.3.14 Packet extension
852	36.3.15 Non-HT duplicate transmission
853	36.3.16 Transmit requirements for PPDUs sent in response to a triggering frame 36.3.16.1 Introduction
854	36.3.16.2 Power pre-correction
855	36.3.16.3 Pre-correction accuracy requirements
856	36.3.17 Beamforming 36.3.17.1 General
857	36.3.17.2 EHT beamforming feedback matrix V 36.3.17.3 EHT CQI feedback
858	36.3.18 EHT sounding NDP 36.3.19 EHT SU transmission
859	36.3.20 Transmit specification 36.3.20.1 Transmit spectral mask 36.3.20.1.1 General
863	36.3.20.1.2 Additional restrictions for puncturing in EHT PPDU
869	36.3.20.1.3 Additional restrictions of preamble puncturing for non-HT duplicate PPDU
871	36.3.20.2 Spectral flatness
876	36.3.20.3 Transmit center frequency and symbol clock frequency tolerance
877	36.3.20.4 Modulation accuracy 36.3.20.4.1 Introduction to modulation accuracy tests 36.3.20.4.2 Transmit center frequency leakage 36.3.20.4.3 Transmitter constellation error
878	36.3.20.4.4 Transmitter modulation accuracy (EVM) test
885	36.3.21 Receiver specification 36.3.21.1 General 36.3.21.2 Receiver minimum input sensitivity
886	36.3.21.3 Adjacent channel rejection
887	36.3.21.4 Nonadjacent channel rejection 36.3.21.5 Receiver maximum input level 36.3.21.6 CCA sensitivity 36.3.21.6.1 General 36.3.21.6.2 CCA sensitivity for operating classes requiring CCA-ED
888	36.3.21.6.3 CCA sensitivity for the primary 20 MHz channel
889	36.3.21.6.4 Per 20 MHz CCA sensitivity 36.3.22 EHT transmit procedure
893	36.3.23 EHT receive procedure
897	36.3.24 Channel numbering and channelization 36.3.24.1 General
898	36.3.24.2 Channelization for 320 MHz channel 36.3.25 Regulatory requirements 36.4 EHT PLME 36.4.1 PLME_SAP sublayer management primitives 36.4.2 PHY MIB
900	36.4.3 TXTIME and PSDU_LENGTH calculation
903	36.4.4 EHT PHY
904	36.5 Parameters for EHT-MCSs
905	36.5.1 EHT-MCSs for 26-tone RU
906	36.5.2 EHT-MCSs for 52-tone RU
907	36.5.3 EHT-MCSs for 52+26-tone MRU
908	36.5.4 EHT-MCSs for 106-tone RU
909	36.5.5 EHT-MCSs for 106+26-tone MRU
910	36.5.6 EHT-MCSs for 242-tone RU
911	36.5.7 EHT-MCSs for 484-tone RU
912	36.5.8 EHT-MCSs for 484+242-tone MRU
913	36.5.9 EHT-MCSs for 996-tone RU
914	36.5.10 EHT-MCSs for 996+484-tone MRU
915	36.5.11 EHT-MCSs for 996+484+242-tone MRU
916	36.5.12 EHT-MCSs for 2×996-tone RU
917	36.5.13 EHT-MCSs for 2×996+484-tone MRU
918	36.5.14 EHT-MCSs for 3×996-tone MRU
919	36.5.15 EHT-MCSs for 3×996+484-tone MRU
920	36.5.16 EHT-MCSs for 4×996-tone RU 36.5.17 EHT-MCS 14 for EHT DUP mode
921	36.6 Parameters for EHT-SIG MCSs
923	Annex B B.2 Abbreviations and special symbols B.2.2 General abbreviations for Item and Support columns B.4 PICS proforma—IEEE Std 802.11- B.4.3 IUT configuration
924	B.4.4 MAC protocol B.4.4.2 MAC frames
926	B.4.40 Extremely High Throughput (EHT) features B.4.40.1 EHT PHY features
936	B.4.40.2 EHT MAC features
941	Annex C C.3 MIB Detail
971	Annex E E.1 Country information and operating classes Table E-4— Global operating classes
972	Annex R (informative) Interworking with external networks R.4 Interworking and SSPN interface support R.4.2 SSPN interface parameters R.4.2.1 General Table R-3— SSPN Interface information or permission parameters R.4.2.4 Non-AP STA Interworking Capability R.4.2.14 Authorized EPCS priority access type
973	Annex Z Z.1 General Z.2 HE-SIG-B example Example 1 Z.3 HE-SIG-B example Example 2 Z.4 HE-SIG-B example Example 3 Z.5 HE-SIG-B example Example 4
974	Z.6 EHT-SIG example 1
975	Z.7 EHT-SIG example 2
977	Z.8 EHT-SIG example 3
980	Z.9 EHT-SIG example 4
983	Z.10 EHT-SIG example 5
985	Z.11 EHT-SIG example 6
986	Z.12 EHT-SIG example 7
988	Z.13 EHT-SIG example 8
993	Annex AA AA.1 Introduction AA.2 Examples illustrating the relationship between profile periodicity and DTIM interval
994	AA.3 Example illustrating the relationship between MLO and multiple BSSID set or co-hosted BSSID set
997	Annex AF AF.1 Introduction AF.2 Advertisement of multi-link information AF.2.1 Example of a complete profile carried in a Basic Multi-Link element
998	AF.2.2 Examples of inheritance in a Multi-Link element AF.2.2.1 Inheritance in a Basic Multi-Link element
999	AF.2.2.2 Inheritance in a Probe Request Multi-Link element
1000	AF.2.3 Contents of Management frames during ML reconfiguration AP remove operation
1002	AF.3 Contents of Management frames during MLO discovery and setup AF.3.1 Management frames originating from an affiliated non-AP STA
1003	AF.3.2 Management frames originating from an affiliated AP that is not a member of a multiple BSSID set
1004	AF.3.3 Management frames originating from an affiliated AP that is a member of a multiple BSSID set
1007	AF.4 Example of ML setup
1008	AF.5 Example of TTLM frame exchange
1009	AF.6 Example of critical update operation
1010	AF.7 Example of advertising quieting or channel switching information a link on another link
1012	AF.8 ML power-save operation AF.8.1 Example of per-link power-save operation
1013	AF.8.2 Example of dynamic link switch using power states
1014	AF.8.3 Examples of listen interval operation
1016	AF.9 Example of cross-link group address BU indication
1017	AF.10 Examples of frame exchanges for TDLS discovery and setup involving a non-AP MLD
1022	AF.11 Example of proxy ARP service provided by an AP MLD
1023	AF.12 Example of TWT agreement negotiation for multiple links AF.13 Examples of multi-link channel access AF.13.1 Example of MLD operation over an STR link pair
1024	AF.13.2 Example of PPDU end time alignment on an NSTR link pair
1025	AF.13.3 Example of end time alignment of response PPDUs using SRS Control field AF.13.4 Example of AP assisted medium synchronization recovery procedure
1026	AF.14 Examples of enhanced multi-link single radio operation
1028	AF.15 Examples of enhanced multi-link multi-radio operation
1029	AF.16 Example of aligned broadcast TWT schedule operation

Additional information

Standard Title	IEEE Draft Standard for Information technology–Telecommunications and information exchange between systems Local and metropolitan area networks–Specific requirements – Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications Amendment: Enhancements for Extremely High Throughput (EHT)
Published Code	IEEE
Publication Date	N/A
Pages Count	1031

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