IEEE P802.11ay

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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: Enhanced Throughput for Operation in License-Exempt Bands Above 45 GHz

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Description

Amendment Standard – Active – Draft. This amendment defines standardized modifications to both the IEEE 802.11 physical layers (PHY) and the IEEE 802.11 medium access control layer (MAC) that enables at least one mode of operation capable of supporting a maximum throughput of at least 20 gigabits per second (measured at the MAC data service access point), while maintaining or improving the power efficiency per station.

PDF Catalog

PDF Pages	PDF Title
7	Introduction
8	Contents
11	List of figures
16	List of tables
21	3. Definitions, acronyms and abbreviations 3.1 Definitions 3.2 Definitions specific to IEEE Std 802.11
24	3.4 Acronyms
25	4. General description 4.3 Components of the IEEE 802.11 architecture 4.3.22 DMG STA 4.3.30 EDMG STA
26	4.9 Reference model 4.9.4 Reference model for multi-band operation 4.9.5 Reference model for co-channel coordinated management operation
28	5. MAC service definition 5.1 Overview of MAC services 5.1.5 MAC data service architecture 5.1.5.1 General
32	6. Layer management 6.3 MLME SAP interface 6.3.3 Scan 6.3.3.2 MLME-SCAN.request 6.3.3.2.2 Semantics of the service primitive
33	6.3.4 Synchronization 6.3.4.2 MLME-JOIN.request 6.3.4.2.2 Semantics of the service primitive
34	6.3.7 Associate 6.3.7.2 MLME-ASSOCIATE.request 6.3.7.2.2 Semantics of the service primitive 6.3.7.3 MLME-ASSOCIATE.confirm 6.3.7.3.2 Semantics of the service primitive
35	6.3.7.4 MLME-ASSOCIATE.indication 6.3.7.4.2 Semantics of the service primitive
36	6.3.7.5 MLME-ASSOCIATE.response 6.3.7.5.2 Semantics of the service primitive
37	6.3.8 Reassociate 6.3.8.2 MLME-REASSOCIATE.request 6.3.8.2.2 Semantics of the service primitive
38	6.3.8.3 MLME-REASSOCIATE.confirm 6.3.8.3.2 Semantics of the service primitive
39	6.3.8.4 MLME-REASSOCIATE.indication 6.3.8.4.2 Semantics of the service primitive
40	6.3.8.5 MLME-REASSOCIATE.response 6.3.8.5.2 Semantics of the service primitive
41	6.3.11 Start 6.3.11.2 MLME-START.request 6.3.11.2.2 Semantics of the service primitive
42	6.3.27 Block Ack 6.3.27.2 MLME-ADDBA.request 6.3.27.2.2 Semantics of the service primitive
43	6.3.27.3 MLME-ADDBA.confirm 6.3.27.3.2 Semantics of the service primitive 6.3.27.4 MLME-ADDBA.indication 6.3.27.4.2 Semantics of the service primitive
44	6.3.27.5 MLME-ADDBA.response 6.3.27.5.2 Semantics of the service primitive 6.3.32 Link Measure Request 6.3.32.1 General
45	6.3.32.2 MLME-LINKMEASURE.request 6.3.32.2.1 Function 6.3.32.2.2 Semantics of the service primitive
46	6.3.91 DMG beamforming 6.3.91.1 SISO beamforming 6.3.91.1.2 MLME-BF-TRAINING.request 6.3.91.1.2.1 Semantics of the service primitive 6.3.91.1.3 MLME-BF-TRAINING.confirm 6.3.91.1.3.1 Semantics of the service primitive
47	6.3.91.1.4 MLME-BF-TRAINING.indication 6.3.91.1.4.1 Semantics of the service primitive 6.3.91.2 SU-MIMO beamforming 6.3.91.2.1 General 6.3.91.2.2 MLME-SU-MIMO-BF-TRAINING.request 6.3.91.2.2.1 Function 6.3.91.2.2.2 Semantics of the service primitive
48	6.3.91.2.2.3 When generated 6.3.91.2.2.4 Effect on receipt 6.3.91.2.3 MLME-SU-MIMO-BF-TRAINING.confirm 6.3.91.2.3.1 Function 6.3.91.2.3.2 Semantics of the service primitive
49	6.3.91.2.3.3 When generated 6.3.91.2.3.4 Effect on receipt 6.3.91.2.4 MLME-SU-MIMO-BF-TRAINING.indication 6.3.91.2.4.1 Function 6.3.91.2.4.2 Semantics of the service primitive
50	6.3.91.2.4.3 When generated 6.3.91.2.4.4 Effect on receipt 6.3.91.3 MU-MIMO beamforming 6.3.91.3.1 General 6.3.91.3.2 MLME-MU-MIMO-BF-TRAINING.request 6.3.91.3.2.1 Function 6.3.91.3.2.2 Semantics of the service primitive
51	6.3.91.3.2.3 When generated 6.3.91.3.2.4 Effect on receipt 6.3.91.3.3 MLME-MU-MIMO-BF-TRAINING.confirm 6.3.91.3.3.1 Function 6.3.91.3.3.2 Semantics of the service primitive
52	6.3.91.3.3.3 When generated 6.3.91.3.3.4 Effect on receipt 6.3.91.3.4 MLME-MU-MIMO-BF-TRAINING.indication 6.3.91.3.4.1 Function 6.3.91.3.4.2 Semantics of the service primitive
53	6.3.91.3.4.3 When generated 6.3.91.3.4.4 Effect on receipt 6.3.91.4 SU-MIMO hybrid beamforming 6.3.91.4.1 General 6.3.91.4.2 MLME-SU-MIMO-HYBRID-BF-PROTOCOL.request 6.3.91.4.2.1 Function 6.3.91.4.2.2 Semantics of the service primitive
54	6.3.91.4.2.3 When generated 6.3.91.4.2.4 Effect on receipt 6.3.91.4.3 MLME-SU-MIMO-HYBRID-BF-PROTOCOL.confirm 6.3.91.4.3.1 Function 6.3.91.4.3.2 Semantics of the service primitive
55	6.3.91.4.3.3 When generated 6.3.91.4.3.4 Effect on receipt 6.3.91.4.4 MLME-SU-MIMO-HYBRID-BF-PROTOCOL.indication 6.3.91.4.4.1 Function 6.3.91.4.4.2 Semantics of the service primitive
56	6.3.91.4.4.3 When generated 6.3.91.4.4.4 Effect on receipt 6.3.91.5 MU-MIMO hybrid beamforming 6.3.91.5.1 General 6.3.91.5.2 MLME-MU-MIMO-HYBRID-BF-PROTOCOL.request 6.3.91.5.2.1 Function 6.3.91.5.2.2 Semantics of the service primitive
57	6.3.91.5.2.3 When generated 6.3.91.5.2.4 Effect on receipt 6.3.91.5.3 MLME-MU-MIMO-HYBRID-BF-PROTOCOL.confirm 6.3.91.5.3.1 Function 6.3.91.5.3.2 Semantics of the service primitive
58	6.3.91.5.3.3 When generated 6.3.91.5.3.4 Effect on receipt 6.3.91.5.4 MLME-MU-MIMO-HYBRID-BF-PROTOCOL.indication 6.3.91.5.4.1 Function 6.3.91.5.4.2 Semantics of the service primitive
59	6.3.91.5.4.3 When generated 6.3.91.5.4.4 Effect on receipt 6.3.119 TDD beamforming 6.3.119.1 General 6.3.119.2 MLME-TDD-BF-TRAINING.request 6.3.119.2.1 Function 6.3.119.2.2 Semantics of the service primitive
61	6.3.119.2.3 When generated 6.3.119.2.4 Effect on receipt 6.3.119.3 MLME-TDD-BF-TRAINING.confirm 6.3.119.3.1 Function 6.3.119.3.2 Semantics of the service primitive
62	6.3.119.3.3 When generated 6.3.119.3.4 Effect on receipt 6.3.119.4 MLME-TDD-BF-TRAINING.indication 6.3.119.4.1 Function 6.3.119.4.2 Semantics of the service primitive
63	6.3.119.4.3 When generated 6.3.119.4.4 Effect on receipt 6.3.120 TDD sector switch 6.3.120.1 General 6.3.120.2 MLME-TDD-SECTOR-SWITCH.request 6.3.120.2.1 Function 6.3.120.2.2 Semantics of the service primitive
64	6.3.120.2.3 When generated 6.3.120.2.4 Effect on receipt 6.3.120.3 MLME-TDD-SECTOR-SWITCH.confirm 6.3.120.3.1 Function
65	6.3.120.3.2 Semantics of the service primitive 6.3.120.3.3 When generated 6.3.120.3.4 Effect on receipt 6.3.120.4 MLME-TDD-SECTOR-SWITCH.indication 6.3.120.4.1 Function 6.3.120.4.2 Semantics of the service primitive
66	6.3.120.4.3 When generated 6.3.120.4.4 Effect on receipt 6.3.121 TDD beam measurement 6.3.121.1 General
67	6.3.121.2 MLME-TDD-BEAM-MEASUREMENT.request 6.3.121.2.1 Function 6.3.121.2.2 Semantics of the service primitive
68	6.3.121.2.3 When generated 6.3.121.2.4 Effect on receipt 6.3.121.3 MLME-TDD-BEAM-MEASUREMENT.confirm 6.3.121.3.1 Function 6.3.121.3.2 Semantics of the service primitive
69	6.3.121.3.3 When generated 6.3.121.3.4 Effect on receipt 6.3.121.4 MLME-TDD-BEAM-MEASUREMENT.indication 6.3.121.4.1 Function 6.3.121.4.2 Semantics of the service primitive 6.3.121.4.3 When generated 6.3.121.4.4 Effect on receipt
70	6.3.122 TDD structure and schedule 6.3.122.1 General 6.3.122.2 MLME-TDD-SLOT-STRUCTURE.request 6.3.122.2.1 Function 6.3.122.2.2 Semantics of the service primitive 6.3.122.2.3 When generated 6.3.122.2.4 Effect on receipt
71	6.3.122.3 MLME-TDD-SLOT-STRUCTURE.confirm 6.3.122.3.1 Function 6.3.122.3.2 Semantics of the service primitive 6.3.122.3.3 When generated 6.3.122.3.4 Effect on receipt 6.3.122.4 MLME-TDD-SLOT-SCHEDULE.request 6.3.122.4.1 Function 6.3.122.4.2 Semantics of the service primitive
72	6.3.122.4.3 When generated 6.3.122.4.4 Effect on receipt 6.3.122.5 MLME-TDD-SLOT-SCHEDULE.confirm 6.3.122.5.1 Function 6.3.122.5.2 Semantics of the service primitive 6.3.122.5.3 When generated
73	6.3.122.5.4 Effect on receipt 6.3.122.6 MLME-TDD-SLOT-ANNOUNCE.request 6.3.122.6.1 Function 6.3.122.6.2 Semantics of the service primitive 6.3.122.6.3 When generated 6.3.122.6.4 Effect on receipt
74	6.3.122.7 MLME-TDD-SLOT-ANNOUNCE.confirm 6.3.122.7.1 Function 6.3.122.7.2 Semantics of the service primitive 6.3.122.7.3 When generated 6.3.122.7.4 Effect on receipt 6.3.122.8 MLME-TDD-SLOT-ANNOUNCE.indication 6.3.122.8.1 Function 6.3.122.8.2 Semantics of the service primitive
75	6.3.122.8.3 When generated 6.3.122.8.4 Effect on receipt 6.3.122.9 MLME-TDD-BANDWIDTH.request 6.3.122.9.1 Function 6.3.122.9.2 Semantics of the service primitive
76	6.3.122.9.3 When generated 6.3.122.9.4 Effect on receipt 6.3.122.10 MLME-TDD-BANDWIDTH.confirm 6.3.122.10.1 Function 6.3.122.10.2 Semantics of the service primitive 6.3.122.10.3 When generated
77	6.3.122.10.4 Effect on receipt 6.3.122.11 MLME-TDD-BANDWIDTH.indication 6.3.122.11.1 Function 6.3.122.11.2 Semantics of the service primitive 6.3.122.11.3 When generated 6.3.122.11.4 Effect on receipt
78	6.5 PLME SAP interface 6.5.6 PLME-TXTIME.confirm 6.5.6.2 Semantics of the service primitive 6.5.7 PLME-MINPAYLOADSTAT.request 6.5.7.1 Function 6.5.7.2 Semantics of the service primitive 6.5.7.3 When generated 6.5.7.4 Effect on receipt
79	6.5.8 PLME-MINPAYLOADSTAT.confirm 6.5.8.1 Function 6.5.8.2 Semantics of the service primitive 6.5.8.3 When generated 6.5.8.4 Effect on receipt 6.5.9 PLME- MINPAYLOADSTATRESET.request 6.5.9.1 Function 6.5.9.2 Semantics of the service primitive 6.5.9.3 When generated 6.5.9.4 Effect on receipt
80	6.5.10 PLME- MINPAYLOADSTATSTOP.request 6.5.10.1 Function 6.5.10.2 Semantics of the service primitive 6.5.10.3 When generated 6.5.10.4 Effect on receipt
81	8. PHY service specification 8.3 Detailed PHY service specifications 8.3.4 Basic service and options 8.3.4.3 PHY SAP service primitives parameters 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
86	8.3.5.17 PHY-ABORT.request 8.3.5.17.1 Function 8.3.5.17.2 Semantics of the service primitive 8.3.5.17.3 When generated 8.3.5.17.4 Effect on receipt
87	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 9.2.4.4 Sequence Control field 9.2.4.4.1 Sequence Control field structure when SAR is not used 9.2.4.4.1a Sequence Control field structure when SAR is used
88	9.2.4.5 QoS Control field 9.2.4.5.4 Ack Policy Indicator subfield
89	9.2.4.7 Frame Body field 9.2.4.7.1 General
90	9.3 Format of individual frame types 9.3.1 Control frames 9.3.1.8 BlockAck frame format 9.3.1.8.1 Overview
91	9.3.1.8.8 EDMG Compressed BlockAck variant
92	9.3.1.8.9 EDMG Multi-TID BlockAck variant
93	9.3.1.23 Sector Ack frame format
94	9.3.1.24 Block Ack Schedule frame format
95	9.3.1.25 TDD Beamforming frame format 9.3.1.25.1 Overview
97	9.3.1.25.2 TDD SSW frame
99	9.3.1.25.3 TDD SSW Feedback frame
100	9.3.1.25.4 TDD SSW Ack frame
101	9.3.3 Management frames 9.3.3.5 Association Request frame format 9.3.3.6 Association Response frame format 9.3.3.7 Reassociation Request frame format
102	9.3.3.8 Reassociation Response frame format 9.3.3.9 Probe Request frame format 9.3.3.10 Probe Response frame format
103	9.3.4 Extension frames 9.3.4.2 DMG Beacon
105	9.4 Management and Extension frame body components 9.4.1 Fields that are not elements 9.4.1.4 Capability Information field 9.4.1.7 Reason Code field 9.4.1.14 Block Ack Timeout Value field 9.4.1.46 DMG Parameters field
106	9.4.2 Elements 9.4.2.1 General 9.4.2.20 Measurement Request element 9.4.2.20.16 Directional Channel Quality request
108	9.4.2.20.17 Directional Measurement request
109	9.4.2.21 Measurement Report element 9.4.2.21.15 Directional Channel Quality report
112	9.4.2.21.16 Directional Measurement report
113	9.4.2.52 Extended Channel Switch Announcement element 9.4.2.127 DMG Capabilities element 9.4.2.127.1 General
114	9.4.2.127.2 DMG STA Capability Information field
115	9.4.2.127.7 TDD Capability Information field 9.4.2.127.8 SAR Capability Information field
116	9.4.2.127.9 Extended MPDU Capability field 9.4.2.129 DMG Beam Refinement element
119	9.4.2.131 Extended Schedule element 9.4.2.133 DMG TSPEC element
120	9.4.2.136 Channel Measurement Feedback element
122	9.4.2.137 Awake Window element 9.4.2.138 Multi-band element
123	9.4.2.142 DMG Link Margin element 9.4.2.142.1 General
124	9.4.2.142.3 Rate Adaptation Control/Extended TPC field
125	9.4.2.142.4 RX Chain Statistics field 9.4.2.142.5 PPDU Statistics field
126	9.4.2.142.6 LDPC Statistics field 9.4.2.142.7 SC/OFDM Statistics field
127	9.4.2.142.8 Extended TPC
128	9.4.2.143 DMG Link Adaptation Acknowledgment element
129	9.4.2.241 RSN Extension element (RSNXE) 9.4.2.265 EDMG Capabilities element 9.4.2.265.1 General
132	9.4.2.265.2 Beamforming Capability subelement
134	9.4.2.265.3 Antenna Polarization Capability subelement
135	9.4.2.265.4 PHY Capabilities subelement
137	9.4.2.265.5 Supported Channels subelement
138	9.4.2.265.6 MAC Capabilities subelement 9.4.2.266 EDMG Operation element
140	9.4.2.267 EDMG Extended Schedule element
142	9.4.2.268 EDMG Channel Measurement Feedback element
147	9.4.2.269 EDMG Group ID Set element
148	9.4.2.270 EDMG BRP Request element
151	9.4.2.271 EDMG Training Field Schedule element 9.4.2.272 EDMG Partial Sector Level Sweep element
152	9.4.2.273 MIMO Setup Control element
154	9.4.2.274 MIMO Poll Control element 9.4.2.275 MIMO Feedback Control element
158	9.4.2.276 MIMO Selection Control element
162	9.4.2.277 EDMG Flow Control Extension Configuration element
164	9.4.2.278 QoS Triggered Unscheduled (QoS-TU) element
165	9.4.2.279 Unsolicited Block Ack Extension element
166	9.4.2.280 SAR Configuration element
167	9.4.2.281 TDD Slot Structure element
168	9.4.2.282 TDD Slot Schedule element
169	9.4.2.283 TDD Route element
173	9.4.2.284 Digital BF Feedback element
183	9.4.2.285 TDD Bandwidth Request element
184	9.4.2.286 TDD Synchronization element
185	9.4.2.287 EDMG Wide Bandwidth Channel Switch element 9.4.2.288 DMG Discovery Assistance element
186	9.4.2.289 Extended Link Measurement element 9.4.2.289.1 General
187	9.4.2.289.2 Periodic Report Request subelement 9.4.2.289.3 Extended TPC Configuration subelement
188	9.4.2.289.4 EDMG Transmit Power subelement 9.4.2.289.5 Periodic Report subelement
189	9.4.2.290 DMG STA Directional Transmit Activity Report element
192	9.5 Fields used in Management and Extension frame bodies and Control frames 9.5.1 Sector Sweep field
193	9.5.3 Sector Sweep Feedback field
195	9.5.4 BRP Request field 9.5.5 Beamforming Control field
196	9.5.7 EDMG BRP field
197	9.5.8 Short BRP Feedback field
198	9.5.9 Sector Feedback field 9.6 Action frame format details 9.6.4 Block Ack Action frame details 9.6.4.2 ADDBA Request frame format
199	9.6.4.3 ADDBA Response frame format
200	9.6.6 Radio Measurement action details 9.6.6.4 Link Measurement Request frame format 9.6.6.5 Link Measurement Report frame format
201	9.6.7 Public Action details 9.6.7.1 DMG Action field 9.6.7.48 DMG STA Directional Transmit Activity Report frame format
202	9.6.10 Protected Dual of Public Action frames 9.6.19 DMG Action frame details 9.6.19.1 DMG Action field 9.6.19.2 Power Save Configuration Request frame format 9.6.19.3 Power Save Configuration Response frame format 9.6.19.23 Protected Announce frame format
203	9.6.21 Unprotected DMG Action frame details 9.6.21.1 Unprotected DMG Action field 9.6.21.2 Announce frame format
204	9.6.21.3 BRP frame format
205	9.6.21.4 MIMO BF Setup frame format
206	9.6.21.5 MIMO BF Poll frame format 9.6.21.6 MIMO BF Feedback frame format
207	9.6.21.7 MIMO BF Selection frame format
208	9.7 Aggregate MPDU (A-MPDU) 9.7.1 A-MPDU format
210	9.7.3 A-MPDU contents
213	10. MAC sublayer functional description 10.3 DCF 10.3.1 General 10.3.2 Procedures common to the DCF and EDCAF 10.3.2.3 IFS 10.3.2.3.4 PIFS 10.3.2.3.8 SBIFS
214	10.3.2.3.10 MBIFS 10.3.2.3.11 LBIFS 10.3.2.9 CTS and DMG CTS procedure
216	10.3.2.11 Acknowledgement procedure 10.3.2.13 MU acknowledgment procedure 10.3.2.13.1 Acknowledgment procedure for DL MU PPDU in SU PPDU
218	10.3.2.14 Duplicate detection and recovery 10.3.2.14.2 Transmitter requirements 10.3.2.18 EDMG RTS procedure
219	10.6 Multirate support 10.6.7 Multirate support for DMG STAs 10.6.7.1 Usage of DMG Control modulation class
220	10.6.7.2 Rate selection rules for Control frames transmitted by DMG STAs 10.6.7.3 Rate selection for group addressed Data and Management frames transmitted by DMG STAs
221	10.6.7.4 Rate selection for individually addressed Data and Management frames transmitted by DMG STAs 10.6.7.5 Rate selection for BRP PPDUs 10.6.7.6 Channel Width selection for Control frames transmitted by EDMG STAs
222	10.6.7.7 Control frame TXVECTOR parameter restrictions
223	10.6.7.8 Channel Width selection for individually addressed Data and Management frames transmitted by EDMG STAs 10.6.10 Modulation classes
224	10.12 A-MPDU operation 10.12.2 A-MPDU length limit rules 10.12.4 A-MPDU aggregation of group addressed Data frames 10.12.7 Setting the EOF/Tag field of the MPDU delimiter
225	10.13 PPDU duration constraint 10.14 DMG A-PPDU and EDMG A-PPDU operation
226	10.23 HCF 10.23.2 HCF contention based channel access (EDCA) 10.23.2.3 EDCA TXOPs 10.23.2.7 Sharing an EDCA TXOP 10.23.2.8 Multiple frame transmission in an EDCA TXOP
227	10.23.2.14 EDCA channel access in an EDMG BSS
228	10.25 Block acknowledgement (block ack) 10.25.1 Introduction
229	10.25.2 Setup and modification of the block ack parameters
232	10.25.5 Selection of BlockAck and BlockAckReq variants
233	10.25.6 HT-immediate block ack extensions 10.25.6.1 Introduction to HT-immediate block ack extensions 10.25.6.2 HT-immediate block ack architecture
234	10.25.6.3 Scoreboard context control during full-state operation
235	10.25.6.4 Scoreboard context control during partial-state operation 10.25.6.5 Generation and transmission of BlockAck frames by an HT STA or DMG STA
236	10.25.6.6 Receive reordering buffer control operation 10.25.6.6.1 General
237	10.25.6.6.2 Operation for each received Data frame
239	10.25.6.6.3 Operation for each received BlockAckReq 10.25.6.7 Originator’s behavior 10.25.6.7.1 General
242	10.25.6.7.2 Number of MPDUs per FlowControlByteCountLimit computation
243	10.25.6.8 Maintaining block ack state at the originator 10.25.7 Protected block ack agreement
244	10.25.10 Unsolicited block ack extension 10.25.10.1 Introduction 10.25.10.2 Unsolicited block ack extension agreement architecture 10.25.10.3 Scoreboard context control during full-state operation
245	10.25.10.4 Generation and transmission of BlockAck frames 10.25.10.5 Receive reordering buffer control operation 10.25.10.6 Originator behaviour and block ack state maintenance
246	10.27 Protection mechanisms 10.27.7 Protection mechanisms for transmissions of EDMG PPDUs 10.29 Reverse direction protocol 10.29.1 General
247	10.29.3 Rules for RD initiator 10.29.4 Rules for RD responder
249	10.29.5 Reverse direction for EDMG DL MU-MIMO
250	10.39 DMG and CMMG channel access 10.39.2 Access periods within a beacon interval
251	10.39.3 ATI transmission rules 10.39.4 DTI transmission rules 10.39.6 Channel access in scheduled DTI 10.39.6.1 General
252	10.39.6.2 Service Period (SP) allocation 10.39.6.2.1 General
253	10.39.6.2.2 SP with TDD channel access
257	10.39.7 Dynamic allocation of service period 10.39.7.2 Polling period (PP) 10.39.7.3 Grant period (GP)
258	10.39.12 EDMG channel access 10.39.12.1 General
259	10.39.12.2 Channel access over multiple channels 10.39.12.2.1 Channel access rules
260	10.39.12.2.2 CCA in secondary channels 10.39.12.3 Directional allocation
261	10.39.12.4 MIMO channel access 10.39.12.4.1 General 10.39.12.4.2 MIMO channel access rules
263	10.39.12.4.3 SU-MIMO channel access procedure
266	10.39.12.4.4 MU-MIMO channel access procedure
269	10.39.12.5 Control trailer 10.39.12.6 “Near-Far” self classification
270	10.42 DMG beamforming 10.42.1 General
271	10.42.2 Sector-level sweep (SLS) phase 10.42.2.1 General
272	10.42.2.2 Initiator sector sweep (ISS) 10.42.2.2.1 General 10.42.2.2.2 Initiator TXSS
273	10.42.2.3 Responder sector sweep (RSS) 10.42.2.3.1 General 10.42.2.3.2 Responder TXSS 10.42.2.4 Sector sweep (SSW) feedback
274	10.42.2.5 Sector sweep (SSW) ack
275	10.42.3 Beam Refinement Protocol (BRP) phase 10.42.3.1 General
276	10.42.4 Beamforming in BTI
278	10.42.5 Beamforming in A-BFT 10.42.5.1 Allocation of A-BFT
279	10.42.5.2 Operation during the A-BFT
282	10.42.5.4 Beamforming in A-BFT with multiple DMG antennas 10.42.6 Beamforming in DTI 10.42.6.2 SLS phase execution
284	10.42.6.3 Multiple sector ID capture (MIDC) subphase 10.42.6.3.3 MIDC subphase with MID subphase only
285	10.42.6.4 BRP phase execution 10.42.6.4.1 General
287	10.42.6.4.2 Beam refinement transaction 10.42.7 Beam tracking
291	10.42.10 EDMG beamforming 10.42.10.1 General
292	10.42.10.2 MIMO beamforming 10.42.10.2.1 General 10.42.10.2.2 SU-MIMO beamforming 10.42.10.2.2.1 General
293	10.42.10.2.2.2 SISO phase
294	10.42.10.2.2.3 MIMO phase 10.42.10.2.2.3.1 General
295	10.42.10.2.2.3.2 Nonreciprocal MIMO phase
299	10.42.10.2.2.3.3 Reciprocal MIMO phase
302	10.42.10.2.3 MU-MIMO beamforming 10.42.10.2.3.1 General
303	10.42.10.2.3.2 SISO phase
305	10.42.10.2.3.3 MIMO phase 10.42.10.2.3.3.1 General 10.42.10.2.3.3.2 Nonreciprocal MIMO phase
308	10.42.10.2.3.3.3 Reciprocal MIMO phase
310	10.42.10.2.4 Hybrid beamforming for SU-MIMO and MU-MIMO 10.42.10.2.4.1 General
311	10.42.10.2.4.2 Announcement phase 10.42.10.2.4.2.1 General
312	10.42.10.2.4.2.2 Announcement phase for SU-MIMO 10.42.10.2.4.2.3 Announcement phase for MU-MIMO 10.42.10.2.4.3 Sounding phase 10.42.10.2.4.3.1 General
313	10.42.10.2.4.3.2 Hybrid beamforming sounding with BRP frame(s) 10.42.10.2.4.3.2.1 SU-MIMO sounding (for both initiator and responder)
314	10.42.10.2.4.3.2.2 MU-MIMO sounding (for initiator)
315	10.42.10.2.4.3.3 Hybrid beamforming sounding with tracking 10.42.10.2.4.4 Feedback phase 10.42.10.2.4.4.1 General
316	10.42.10.2.4.4.2 SU-MIMO feedback 10.42.10.2.4.4.3 MU-MIMO feedback
317	10.42.10.3 Beamforming for asymmetric links 10.42.10.3.1 General
318	10.42.10.3.2 Scheduling during the BTI 10.42.10.3.3 Beamforming training allocation in DTI
320	10.42.10.4 Group beamforming
321	10.42.10.5 BRP transmit sector sweep (BRP TXSS) 10.42.10.5.1 General
323	10.42.10.5.2 BRP TXSS configuration 10.42.10.5.2.1 General 10.42.10.5.2.2 SISO BRP TXSS configuration 10.42.10.5.2.2.1 General
326	10.42.10.5.2.2.2 Reciprocity and SISO BRP TXSS configuration
330	10.42.10.5.2.3 MIMO BRP TXSS configuration
333	10.42.10.5.2.4 Configuration of BRP TXSS for 2.16+2.16 GHz and 4.32+4.32 GHz channels 10.42.10.5.3 BRP TXSS execution
335	10.42.10.6 First path beamforming training
336	10.42.10.7 Dual polarization TRN beamforming training
337	10.42.11 TDD beamforming 10.42.11.1 General
340	10.42.11.2 Initiator operation for TDD individual beamforming
343	10.42.11.3 Responder operation for TDD individual beamforming
345	10.42.11.4 Initiator operation for TDD group beamforming
349	10.42.11.5 Responder operation for TDD group beamforming
351	10.42.11.6 Initiator operation for TDD beam measurement 10.42.11.7 Responder operation for TDD beam measurement
352	10.43 DMG link adaptation 10.43.1 General
353	10.43.2 DMG TPC
354	10.43.4 EDMG spatial stream feedback
355	10.43.5 TDD link maintenance
356	10.43.6 Extended TPC 10.67 EDMG phase hopping and open loop precoding operation
357	10.68 EDMG AP or EDMG PCP distributed scheduling protocol operation 10.68.1 General 10.68.2 Distributed scheduling initialization 10.68.3 Distributed scheduling protocol
358	10.69 DMG segmentation and reassembly operation 10.69.1 General
359	10.69.2 Segmentation operation 10.69.3 Reassembly operation
360	10.70 EDMG A-MPDU with multiple TIDs 10.70.1 General
361	10.70.2 Acknowledgement context in a Multi-TID BlockAck frame
363	11. MLME 11.1 Synchronization 11.1.1 General 11.1.3 Maintaining synchronization 11.1.3.3 Beacon generation in a DMG infrastructure BSS and in a PBSS 11.1.3.3.1 General 11.1.3.3.4 Beacon generation under TDD channel access 11.1.3.4 DMG Beacon generation before establishment of a BSS
364	11.1.4 Acquiring synchronization, scanning 11.1.4.3 Active scanning and probing procedures 11.1.4.3.3 Active scanning procedure for a DMG STA 11.1.4.3.4 Criteria for sending a response
365	11.1.4.4 Initializing a BSS 11.1.4.4.2 Initializing a DMG BSS 11.1.7 TDD time synchronization
366	11.2 Power management 11.2.6 SM power save
367	11.2.7 Power management in a PBSS and DMG infrastructure BSS 11.2.7.1 General 11.2.7.2 Non-AP and non-PCP STA power management mode 11.2.7.2.2 Non-AP and non-PCP STA operation without a wakeup schedule
368	11.2.7.2.3 Non-AP and non-PCP STA operation with a wakeup schedule 11.2.7.4 ATIM frame usage for power management of non-AP STAs
370	11.2.7.5 MU-MIMO power save
371	11.4 TS operation 11.4.13 DMG allocation formats 11.4.13.1 General 11.4.13.2 Isochronous allocation 11.4.13.3 Asynchronous allocation
372	11.5 Block ack operation 11.5.2 Setup and modification of the block ack parameters 11.5.2.4 Procedure common to both originator and recipient
373	11.7 TPC procedures 11.7.1 General 11.8 DFS procedures 11.8.8 Selecting and advertising a new channel 11.8.8.7 Selecting and advertising new channels in an EDMG BSS
374	11.19 Timing Advertisement 11.19.3 UTC TSF Offset procedures 11.24 Quality-of-service Management frame (QMF) 11.24.1 General 11.24.1.2 Default QMF policy
375	11.27 DMG beamformed link and BSS maintenance 11.27.1 Beamformed link maintenance 11.27.1.1 General 11.27.1.2 EDMG partial SLS
376	11.30 Spatial sharing and interference mitigation for DMG STAs 11.30.1 General
377	11.30.2 Spatial sharing and interference assessment
378	11.30.3 Achieving spatial sharing and interference mitigation 11.30.5 Directional transmit activity report
380	11.31 Multi-band operation 11.31.1 General 11.31.7 Multi-band discovery assistance procedure 11.31.7.1 Multi-band discovery assistance request procedure
382	11.31.7.2 Discovery assistance action determination and on demand sector sweeping
385	11.33 DMG coexistence with non-IEEE-802.11 systems 11.36 DMG beamforming 11.36.1 Non-TDD beamforming
386	11.36.2 TDD beamforming
388	11.36.3 TDD sector switch procedure
391	11.36.4 TDD beam measurement 11.37 DMG MAC sublayer attributes
392	11.54 TDD channel access operation 11.54.1 General 11.54.2 TDD channel access life cycle
393	11.54.3 Scheduling for association and secure authentication
394	11.54.4 Scheduling for data traffic
397	12. Security 12.6 RSNA security association management 12.6.20 Robust management frame selection procedure
398	20. Directional multi-gigabit (DMG) PHY specification 20.2 DMG PHY service interface 20.2.2 TXVECTOR and RXVECTOR parameters 20.3 Common parameters 20.3.9 Scrambler 20.9 Beamforming 20.9.1 Beamforming concept
399	20.11 DMG PLME 20.11.4 DMG PHY
400	28. Enhanced directional multi-gigabit (EDMG) PHY specification 28.1 Introduction 28.1.1 Introduction to the EDMG PHY
401	28.1.2 Scope 28.1.3 EDMG PHY functions 28.1.3.1 General
402	28.1.3.2 PHY management entity (PLME) 28.1.3.3 Service specification method 28.1.4 PPDU formats 28.2 EDMG PHY service interface 28.2.1 General
403	28.2.2 TXVECTOR and RXVECTOR parameters
419	28.2.3 PHYCONFIG_VECTOR parameters
420	28.2.4 Support for NON_EDMG formats 28.2.4.1 General 28.2.4.2 EDMG STA PHY entity configuration for transmission
421	28.2.4.3 EDMG STA PHY entity configuration for reception
423	28.2.4.4 EDMG STA PHY entity channel bandwidth configuration
424	28.2.4.5 EDMG STA PHY CCA 28.2.5 TXSTATUS parameters 28.3 Common parameters 28.3.1 Introduction
426	28.3.2 EDMG PPDU format 28.3.2.1 General
427	28.3.2.2 EDMG A-PPDU format
428	28.3.3 EDMG preamble 28.3.3.1 General 28.3.3.2 Non-EDMG portion of EDMG format preamble 28.3.3.2.1 General 28.3.3.2.2 L-STF definition
429	28.3.3.2.3 L-CEF definition 28.3.3.2.4 L-Header definition 28.3.3.2.4.1 General
433	28.3.3.2.4.2 Example of spoofing algorithm for EDMG SC PPDUs
434	28.3.3.3 EDMG portion of EDMG format preamble 28.3.3.3.1 General 28.3.3.3.2 EDMG-Header-A definition 28.3.3.3.2.1 General 28.3.3.3.2.2 Definition for EDMG control mode PPDU
436	28.3.3.3.2.3 Definition for EDMG SC mode and EDMG OFDM mode PPDUs
443	28.3.3.3.2.4 Encoding and modulation
444	28.3.3.3.3 EDMG-STF definition 28.3.3.3.4 EDMG-CEF definition 28.3.3.3.5 EDMG-Header-B definition 28.3.3.3.5.1 General
446	28.3.3.3.5.2 Transmission 28.3.3.4 Mathematical description of signals 28.3.3.4.1 General 28.3.3.4.2 Channel aggregation
447	28.3.4 Channelization
453	28.3.5 Transmit mask
456	28.3.6 LDPC parity matrices 28.3.6.1 General
457	28.3.6.2 Rate-7/8 LDPC code matrix H = 84 rows x 672 columns, Z = 42 28.3.6.3 Rate-1/2 LDPC code matrix H = 672 rows x 1344 columns, Z = 42
458	28.3.6.4 Rate-5/8 LDPC code matrix H = 504 rows x 1344 columns, Z = 42
459	28.3.6.5 Rate-3/4 LDPC code matrix H = 336 rows x 1344 columns, Z = 42
460	28.3.6.6 Rate-13/16 LDPC code matrix H = 252 rows x 1344 columns, Z = 42 28.3.6.7 Rate-7/8 LDPC code matrix H = 168 rows x 1344 columns, Z = 42
461	28.3.7 Control trailer
465	28.3.8 CCA sensitivity
466	28.3.9 Common requirements 28.3.9.1 Introduction 28.3.9.2 Received channel power indicator (RCPI) measurement 28.3.9.3 Transmit center frequency and symbol clock frequency tolerance 28.3.9.4 Transmit center frequency leakage
467	28.3.9.5 Transmit rampup and rampdown 28.3.9.6 Antenna setting 28.3.9.7 Maximum input requirement 28.3.9.8 Receiver minimum input sensitivity
470	28.3.9.9 Spectral flatness test for the EDMG OFDM mode
471	28.3.9.10 Receiver co-channel interference (CCI) resilience 28.4 EDMG and non-EDMG control mode 28.4.1 General 28.4.2 Transmitter block diagram 28.4.2.1 General
472	28.4.2.2 Non-EDMG PPDU transmission
473	28.4.2.3 EDMG PPDU transmission 28.4.3 PPDU format
474	28.4.4 Non-EDMG portion of the EDMG control mode PPDU 28.4.5 EDMG portion of the EDMG control mode PPDU 28.4.5.1 General 28.4.5.2 Data field 28.4.5.2.1 General 28.4.5.2.2 Scrambler 28.4.5.2.3 Encoder
475	28.4.5.2.4 Modulation and spreading 28.4.6 Non-EDMG control trailer encoding and modulation 28.4.7 PPDU transmission 28.4.7.1 General
476	28.4.7.2 Non-EDMG PPDU transmission 28.4.7.2.1 Non-EDMG PPDU transmission over a 2.16 GHz and 2.16+2.16 GHz channel
478	28.4.7.2.2 Non-EDMG duplicate PPDU transmission over a 4.32 GHz, 6.48 GHz, 8.64 GHz, and 4.32+4.32 GHz channel
479	28.4.7.3 EDMG PPDU transmission 28.4.7.3.1 General 28.4.7.3.2 EDMG preamble and Data field transmission over a 2.16 GHz and 2.16+2.16 GHz channel
481	28.4.7.3.3 EDMG duplicate preamble and Data field transmission over a 4.32 GHz, 6.48 GHz, 8.64 GHz, and 4.32+4.32 GHz channel
482	28.4.7.3.4 TRN field transmission over a 2.16 GHz, 4.32 GHz, 6.48 GHz, 8.64 GHz, 2.16+2.16 GHz, and 4.32+4.32 GHz channel
483	28.4.7.3.5 EDMG PPDU transmission with TRN field transmission over a 2.16 GHz, 4.32 GHz, 6.48 GHz, 8.64 GHz, 2.16+2.16 GHz, and 4.32+4.32 GHz channel 28.4.7.3.6 EDMG PPDU transmission with DMG AGC and TRN fields over a 2.16 GHz channel
485	28.4.8 Performance requirements 28.5 EDMG and non-EDMG SC mode 28.5.1 General
486	28.5.2 Signal parameters 28.5.2.1 General 28.5.2.2 Timing related parameters
487	28.5.3 Transmitter block diagram 28.5.3.1 General
488	28.5.3.2 Non-EDMG PPDU transmission 28.5.3.3 EDMG PPDU transmission 28.5.3.3.1 Pre-EDMG modulated fields of PPDU transmission 28.5.3.3.2 EDMG modulated fields of SU PPDU transmission
489	28.5.3.3.3 EDMG modulated fields of MU PPDU transmission
490	28.5.4 EDMG-STF definition 28.5.4.1 General
491	28.5.4.2 Definition 28.5.5 EDMG-CEF definition 28.5.5.1 General
492	28.5.5.2 Definition
494	28.5.6 Encoding of EDMG-Header-B
495	28.5.7 Encoding of EDMG-Header-A for EDMG A-PPDU transmission
496	28.5.8 Modulation and coding scheme (MCS)
498	28.5.9 Data field 28.5.9.1 Guard interval definition
499	28.5.9.2 Symbol blocking and guard insertion 28.5.9.2.1 General
500	28.5.9.2.2 SU PPDU transmission 28.5.9.2.2.1 General 28.5.9.2.2.2 SU PPDU transmission over a 2.16 GHz or a 2.16+2.16 GHz channel with NSTS = 1
501	28.5.9.2.2.3 SU PPDU transmission over a 2.16 GHz or 2.16+2.16 GHz channel with NSTS > 1 and over a 4.32 GHz, 6.48 GHz, 8.64 GHz or 4.32+4.32 GHz channel with NSTS ≥ 1
502	28.5.9.2.3 SU A-PPDU transmission
503	28.5.9.2.4 MU PPDU transmission 28.5.9.2.4.1 General 28.5.9.2.4.2 MU PPDU transmission
504	28.5.9.3 Scrambler 28.5.9.3.1 Scrambler for the Data field, L-Header, EDMG-Header-A, and EDMG-Header-B data bits and non-EDMG SC MCS1 coded bits 28.5.9.3.2 Scrambler for EDMG-Header-A in SU EDMG A-PPDU, EDMG-Header-B, and EDMG SC MCS1 coded bits
505	28.5.9.4 Encoding 28.5.9.4.1 General
507	28.5.9.4.2 Parity check matrices 28.5.9.4.3 LDPC encoding
511	28.5.9.4.4 MU PPDU padding and space-time streams mapping
512	28.5.9.4.5 SU A-PPDU padding
513	28.5.9.5 Modulation mapping 28.5.9.5.1 General 28.5.9.5.2 Transmission in EDMG format
514	28.5.9.5.3 Dual carrier modulation (DCM) π/2-BPSK 28.5.9.5.4 Space-time block coding (STBC)
515	28.5.9.5.5 Block interleaver
516	28.5.9.5.6 π/2-64-NUC nonuniform constellation modulation
517	28.5.9.5.7 π/2-8-PSK modulation
518	28.5.10 PPDU transmission 28.5.10.1 General 28.5.10.2 Spatial mapping
519	28.5.10.3 Non-EDMG PPDU transmission 28.5.10.3.1 Non-EDMG PPDU transmission over a 2.16 GHz or 2.16+2.16 GHz channel
521	28.5.10.3.2 Non-EDMG duplicate PPDU transmission over a 4.32 GHz, 6.48 GHz, 8.64 GHz, or 4.32+4.32 GHz channel
522	28.5.10.4 EDMG SU PPDU transmission 28.5.10.4.1 General
523	28.5.10.4.2 EDMG PPDU transmission over a 2.16 GHz or 2.16+2.16 GHz channel with NSTS = 1
525	28.5.10.4.3 EDMG PPDU transmission with DMG AGC and TRN fields over a 2.16 GHz channel with NSTS = 1
528	28.5.10.4.4 EDMG PPDU transmission over a 2.16 GHz or 2.16+2.16 GHz channel with NSTS > 1 and 4.32 GHz, 6.48 GHz, 8.64 GHz or 4.32+4.32 GHz channel with NSTS ≥ 1 28.5.10.4.4.1 General 28.5.10.4.4.2 Pre-EDMG modulated fields transmission
531	28.5.10.4.4.3 EDMG preamble and Data field transmission
533	28.5.10.4.4.4 TRN field transmission 28.5.10.4.4.5 Filtering procedure
535	28.5.10.5 EDMG MU PPDU transmission 28.5.10.5.1 General 28.5.10.5.2 Pre-EDMG modulated fields transmission 28.5.10.5.3 EDMG preamble, EDMG-Header-B and Data field transmission 28.5.10.5.4 TRN field transmission
536	28.5.10.5.5 Filtering procedure
537	28.5.11 Performance requirements 28.5.11.1 Transmit requirements 28.5.11.1.1 Transmit modulation accuracy (EVM) test and requirements
540	28.5.11.1.2 Time of Departure accuracy 28.5.11.2 Receive requirements 28.6 EDMG OFDM mode 28.6.1 General 28.6.2 OFDM signal parameters 28.6.2.1 General
541	28.6.2.2 Timing related parameters 28.6.2.3 DC relative shift to carrier frequency
542	28.6.2.4 Pilot tones
545	28.6.2.5 Data tones
549	28.6.2.6 Pilot sequences
550	28.6.3 Transmitter block diagram 28.6.3.1 General
551	28.6.3.2 EDMG PPDU transmission 28.6.3.2.1 Pre-EDMG modulated fields of PPDU transmission 28.6.3.2.2 EDMG modulated fields of SU PPDU transmission
552	28.6.3.2.3 EDMG modulated fields of MU PPDU transmission
553	28.6.4 EDMG-STF definition 28.6.4.1 General
554	28.6.4.2 Definition
555	28.6.5 EDMG-CEF definition 28.6.5.1 General 28.6.5.2 Definition
557	28.6.6 Encoding of EDMG-Header-B
558	28.6.7 Encoding of EDMG-Header-A for EDMG A-PPDU transmission
559	28.6.8 Modulation and coding scheme (MCS)
561	28.6.9 Data field 28.6.9.1 Scrambler 28.6.9.2 Encoding 28.6.9.2.1 General
562	28.6.9.2.2 Parity check matrices 28.6.9.2.3 LDPC encoding
564	28.6.9.2.4 MU PPDU padding and space-time streams mapping
565	28.6.9.2.5 SU A-PPDU padding
566	28.6.9.3 Modulation mapping 28.6.9.3.1 General 28.6.9.3.2 Transmission in EDMG format
567	28.6.9.3.3 DCM BPSK modulation
568	28.6.9.3.4 Dual Stream DCM BPSK modulation
569	28.6.9.3.5 DCM QPSK modulation 28.6.9.3.6 16-QAM modulation
570	28.6.9.3.7 64-QAM modulation 28.6.9.3.8 Phase hopping modulation
572	28.6.9.3.9 Interleaver
573	28.6.9.3.10 Space-time block coding
574	28.6.10 PPDU transmission 28.6.10.1 General 28.6.10.2 Spatial mapping
575	28.6.10.3 EDMG SU PPDU transmission 28.6.10.3.1 General 28.6.10.3.2 Pre-EDMG modulated fields transmission
576	28.6.10.3.3 EDMG preamble, Data and TRN fields transmission
577	28.6.10.4 EDMG MU PPDU transmission 28.6.10.4.1 General 28.6.10.4.2 Pre-EDMG modulated fields transmission
578	28.6.10.4.3 EDMG preamble, Data and TRN fields transmission
579	28.6.11 Performance requirements 28.6.11.1 Transmit requirements 28.6.11.1.1 Transmit modulation accuracy (EVM) test and requirements
580	28.6.11.1.2 Time of Departure accuracy
581	28.6.11.2 Receive requirements 28.7 EDMG transmit procedure
587	28.8 EDMG receive procedure
592	28.9 EDMG beamforming 28.9.1 Short SSW PPDU 28.9.1.1 General
593	28.9.1.2 Short Scrambled BSSID subfield definition
594	28.9.1.3 Short SSW Payload field example
595	28.9.2 Beam refinement 28.9.2.1 General 28.9.2.2 EDMG BRP PPDU 28.9.2.2.1 General
596	28.9.2.2.2 EDMG BRP PPDU structure 28.9.2.2.3 EDMG BRP PPDU header fields
597	28.9.2.2.4 EDMG BRP PPDU duration 28.9.2.2.5 TRN field definition
600	28.9.2.2.6 TRN subfield definition for EDMG SC PPDUs and EDMG control mode PPDUs
603	28.9.2.2.7 TRN subfield definition for EDMG OFDM PPDUs
607	28.9.2.2.8 Channel measurement 28.10 Golay sequences 28.10.1 General 28.10.2 Sequences of length 32, 64, 128, 256, 512 and 1024
651	28.10.3 Sequences of length 96, 192, 384 and 768
676	28.11 OFDM sequences 28.11.1 EDMG-STF sequence 28.11.1.1 General 28.11.1.2 Sequence definition
704	28.11.2 EDMG-CEF sequence 28.11.2.1 General 28.11.2.2 Sequences definition
735	28.12 EDMG PLME 28.12.1 PLME_SAP sublayer management primitives
736	28.12.2 PHY MIB 28.12.3 TXTIME calculation 28.12.3.1 General 28.12.3.2 TXTIME calculation for EDMG control mode
738	28.12.3.3 TXTIME calculation for EDMG SC mode
741	28.12.3.4 TXTIME calculation for EDMG OFDM mode
743	28.12.3.5 TXTIME calculation for non-EDMG control mode 28.12.3.6 TXTIME calculation for non-EDMG SC mode
744	28.12.4 EDMG PHY characteristics
745	Annex B (normative) Protocol Implementation Conformance Statement (PICS) proforma B.4 PICS proforma B.4.3 IUT configuration B.4.4 MAC protocol B.4.4.1 MAC protocol capabilities
746	B.4.4.2 MAC frames B.4.4.12 QoS base functionality
747	B.4.24 DMG features B.4.24.1 DMG MAC features B.4.34 Enhanced directional multi-gigabit (EDMG) features B.4.34.1 EDMG MAC features
749	B.4.34.2 EDMG PHY features
753	B.4.35 Time division duplex (TDD) features
755	Annex C (normative) ASN.1 encoding of the MAC and PHY MIB C.3 MIB detail
779	Annex E (normative) Country elements and operating classes
780	Annex G (normative) Frame exchange sequences G.1 General G.2 Basic sequences G.4 HT, and VHT, and S1G and DMG sequences
783	Annex I (informative) Examples of encoding a frame for OFDM PHYs, and DMG PHYs and EDMG PHY I.8 EDMG example data vectors
784	Annex AB (informative) Radar implementation using the DMG PHY and EDMG PHY

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: Enhanced Throughput for Operation in License-Exempt Bands Above 45 GHz
Published Code	IEEE
Publication Date	N/A

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