IEEE 8802-11:2012/Amd.3:-2014

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ISO/IEC/IEEE International 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 3: Enhancements for Very High Throughput in the 60 GHz Band (adoption of IEEE Std 802.11ad-2012)

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IEEE	2014

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Description

Adoption Standard – Active. This amendment defines modifications to both the IEEE 802.11 physical layers (PHYs)and the IEEE 802.11 medium access control layer (MAC) to enable operation in frequencies around 60 GHz and capable of very high throughput.

PDF Catalog

PDF Pages	PDF Title
1	ISO/IEC/IEEE 8802-11:2012/Amd.3:2014 Front Cover
3	Foreword
5	IEEE Std 802.11ad™-2012
7	Title page
10	Notice to users Laws and regulations Copyrights Updating of IEEE documents Errata Patents
11	Participants
15	Introduction
16	Contents
25	Tables
29	Figures
35	IMPORTANT NOTICE
36	1. Overview 1.3 Supplementary information on purpose 2. Normative references 3. Definitions, acronyms, and abbreviations 3.1 Definitions
38	3.2 Definitions specific to IEEE 802.11
40	3.3 Abbreviations and acronyms
43	4. General description 4.3 Components of the IEEE 802.11 architecture 4.3.1 General 4.3.2a The personal BSS (PBSS) as an ad hoc network 4.3.4 Distribution system (DS) concepts 4.3.4.3 Robust security network association (RSNA)
44	4.3.4.4 Centralized Coordination Service Set (CCSS) and Extended Centralized PCP/AP Cluster (ECPAC) within the DMG
45	4.3.7 QoS BSS: The QoS network
47	4.3.17 DMG STA 4.3.18 DMG relay 4.4 Logical service interfaces 4.4.1 General
48	4.4.2a PBSS control point service (PCPS) 4.4.3 DSS
49	4.5 Overview of the services 4.5.1 General
50	4.5.3 Services that support the distribution service and the PCP service 4.5.4 Access control and data confidentiality services 4.5.4.2 Authentication 4.5.4.4 Data confidentiality 4.7 Differences between among ESS, PBSS, and IBSS LANs
52	4.9 Reference model 4.9.3 Reference model for supporting multiple MAC sublayers
53	4.9.4 Reference model for multi-band operation
55	4.10 IEEE Std 802.11 and IEEE Std 802.1X-2004 4.10.4a PBSS functional model description
56	4.11 Generic advertisement service (GAS)
57	5. MAC service definition 5.1 Overview of MAC services 5.1.5 MAC data service architecture
58	5.2 MAC data service specification 5.2.2 MA-UNITDATA.request 5.2.2.2 Semantics of the service primitive
59	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
60	6.3.3.3 MLME-SCAN.confirm 6.3.3.3.2 Semantics of the service primitive
62	6.3.4 Synchronization 6.3.4.2 MLME-JOIN.request 6.3.4.2.2 Semantics of the service primitive 6.3.4.2.4 Effect of receipt
63	6.3.5 Authenticate 6.3.5.2 MLME-AUTHENTICATE.request 6.3.5.2.2 Semantics of the service primitive 6.3.5.3 MLME-AUTHENTICATE.confirm 6.3.5.3.2 Semantics of the service primitive
64	6.3.5.4 MLME-AUTHENTICATE.indication 6.3.5.4.2 Semantics of the service primitive 6.3.5.5 MLME-AUTHENTICATE.response 6.3.5.5.2 Semantics of the service primitive
65	6.3.7 Associate 6.3.7.1 Introduction 6.3.7.2 MLME-ASSOCIATE.request 6.3.7.2.1 Function 6.3.7.2.2 Semantics of the service primitive
66	6.3.7.2.3 When generated 6.3.7.3 MLME-ASSOCIATE.confirm 6.3.7.3.1 Function 6.3.7.3.2 Semantics of the service primitive
67	6.3.7.3.3 When generated
68	6.3.7.4 MLME-ASSOCIATE.indication 6.3.7.4.1 Function 6.3.7.4.2 Semantics of the service primitive
69	6.3.7.5 MLME-ASSOCIATE.response 6.3.7.5.1 Function 6.3.7.5.2 Semantics of the service primitive
70	6.3.7.5.3 When generated 6.3.8 Reassociate 6.3.8.1 Introduction
71	6.3.8.2 MLME-REASSOCIATE.request 6.3.8.2.1 Function 6.3.8.2.2 Semantics of the service primitive
72	6.3.8.2.3 When generated 6.3.8.3 MLME-REASSOCIATE.confirm 6.3.8.3.1 Function 6.3.8.3.2 Semantics of the service primitive
73	6.3.8.3.3 When generated
74	6.3.8.4 MLME-REASSOCIATE.indication 6.3.8.4.1 Function 6.3.8.4.2 Semantics of the service primitive
75	6.3.8.5 MLME-REASSOCIATE.response 6.3.8.5.1 Function 6.3.8.5.2 Semantics of the service primitive
76	6.3.8.5.3 When generated
77	6.3.11 Start 6.3.11.2 MLME-START.request 6.3.11.2.2 Semantics of the service primitive
79	6.3.11.2.3 When generated 6.3.11.2.4 Effect of receipt 6.3.12 Stop 6.3.12.2 MLME-STOP.request 6.3.12.2.3 When generated 6.3.12.2.4 Effect of receipt
80	6.3.26 TS management interface 6.3.26.1 General 6.3.26.2 MLME-ADDTS.request 6.3.26.2.1 Function 6.3.26.2.2 Semantics of the service primitive
81	6.3.26.3 MLME-ADDTS.confirm 6.3.26.3.2 Semantics of the service primitive
83	6.3.26.3.3 When generated 6.3.26.4 MLME-ADDTS.indication 6.3.26.4.1 Function 6.3.26.4.2 Semantics of the service primitive
84	6.3.26.4.4 Effect of receipt 6.3.26.5 MLME-ADDTS.response 6.3.26.5.2 Semantics of the service primitive
86	6.3.26.5.3 When generated 6.3.26.5.4 Effect of receipt 6.3.26.6 MLME-DELTS.request 6.3.26.6.1 Function 6.3.26.6.2 Semantics of the service primitive
87	6.3.26.6.4 Effect of receipt 6.3.26.7 MLME-DELTS.indication 6.3.26.7.1 Function
88	6.3.26.7.2 Semantics of the service primitive 6.3.26.7.3 When generated
89	6.3.29 Block Ack 6.3.29.2 MLME-ADDBA.request 6.3.29.2.2 Semantics of the service primitive 6.3.29.3 MLME-ADDBA.confirm 6.3.29.3.2 Semantics of the service primitive
90	6.3.29.4 MLME-ADDBA.indication 6.3.29.4.2 Semantics of the service primitive
91	6.3.29.5 MLME-ADDBA.response 6.3.29.5.2 Semantics of the service primitive
92	6.3.29.6 MLME-DELBA.request 6.3.29.6.2 Semantics of the service primitive 6.3.29.7 MLME-DELBA.indication 6.3.29.7.2 Semantics of the service primitive
93	6.3.71 Network discovery and selection support 6.3.71.2 MLME-GAS.request 6.3.71.2.2 Semantics of the service primitive 6.3.71.3 MLME-GAS.confirm 6.3.71.3.2 Semantics of the service primitive
94	6.3.71.4 MLME-GAS.indication 6.3.71.4.2 Semantics of the service primitive 6.3.71.5 MLME-GAS.response 6.3.71.5.2 Semantics of the service primitive
95	6.3.88 AP PeerKey management 6.3.89 On-channel Tunneling operation 6.3.89.1 General 6.3.89.2 MLME-OCTunnel.request 6.3.89.2.1 Function
96	6.3.89.2.2 Semantics of the service primitive 6.3.89.2.3 When generated 6.3.89.2.4 Effect on receipt 6.3.89.3 MLME-OCTunnel.indication 6.3.89.3.1 Function 6.3.89.3.2 Semantics of the service primitive
97	6.3.89.3.3 When generated 6.3.89.3.4 Effect on receipt 6.3.90 Multi-band operation 6.3.90.1 General 6.3.90.2 MLME-FSTSetup.request 6.3.90.2.1 Function 6.3.90.2.2 Semantics of the service primitive
98	6.3.90.2.3 When generated 6.3.90.2.4 Effect on receipt 6.3.90.3 MLME-FSTSetup.indication 6.3.90.3.1 Function 6.3.90.3.2 Semantics of the service primitive 6.3.90.3.3 When generated 6.3.90.3.4 Effect on receipt
99	6.3.90.4 MLME-FSTSetup.response 6.3.90.4.1 Function 6.3.90.4.2 Semantics of the service primitive 6.3.90.4.3 When generated 6.3.90.4.4 Effect on receipt 6.3.90.5 MLME-FSTSetup.confirm 6.3.90.5.1 Function 6.3.90.5.2 Semantics of the service primitive
100	6.3.90.5.3 When generated 6.3.90.5.4 Effect on receipt 6.3.90.6 MLME-FSTAck.request 6.3.90.6.1 Function 6.3.90.6.2 Semantics of the service primitive 6.3.90.6.3 When generated 6.3.90.6.4 Effect on receipt
101	6.3.90.7 MLME-FSTAck.indication 6.3.90.7.1 Function 6.3.90.7.2 Semantics of the service primitive 6.3.90.7.3 When generated 6.3.90.7.4 Effect on receipt 6.3.90.8 MLME-FSTAck.response 6.3.90.8.1 Function 6.3.90.8.2 Semantics of the service primitive
102	6.3.90.8.3 When generated 6.3.90.8.4 Effect on receipt 6.3.90.9 MLME-FSTAck.confirm 6.3.90.9.1 Function 6.3.90.9.2 Semantics of the service primitive 6.3.90.9.3 When generated 6.3.90.9.4 Effect on receipt
103	6.3.90.10 MLME-FSTTeardown.request 6.3.90.10.1 Function 6.3.90.10.2 Semantics of the service primitive 6.3.90.10.3 When generated 6.3.90.10.4 Effect on receipt 6.3.90.11 MLME-FSTTeardown.indication 6.3.90.11.1 Function 6.3.90.11.2 Semantics of the service primitive
104	6.3.90.11.3 When generated 6.3.90.11.4 Effect on receipt 6.3.90.12 MLME-FSTIncoming.request 6.3.90.12.1 Function 6.3.90.12.2 Semantics of the service primitive
105	6.3.90.12.3 When generated 6.3.90.12.4 Effect on receipt 6.3.91 DMG relay operation 6.3.91.1 General 6.3.91.2 MLME-RELAYSearch.request 6.3.91.2.1 Function 6.3.91.2.2 Semantics of the service primitive 6.3.91.2.3 When generated 6.3.91.2.4 Effect on receipt 6.3.91.3 MLME-RELAYSearch.confirm 6.3.91.3.1 Function
106	6.3.91.3.2 Semantics of the service primitive 6.3.91.3.3 When generated 6.3.91.3.4 Effect on receipt 6.3.91.4 MLME-RELAYSearch.indication 6.3.91.4.1 Function 6.3.91.4.2 Semantics of the service primitive 6.3.91.4.3 When generated
107	6.3.91.4.4 Effect on receipt 6.3.91.5 MLME-RELAYSearch.response 6.3.91.5.1 Function 6.3.91.5.2 Semantics of the service primitive 6.3.91.5.3 When generated 6.3.91.5.4 Effect on receipt 6.3.91.6 MLME-RLS.request 6.3.91.6.1 Function 6.3.91.6.2 Semantics of the service primitive
108	6.3.91.6.3 When generated 6.3.91.6.4 Effect on receipt 6.3.91.7 MLME-RLS.confirm 6.3.91.7.1 Function 6.3.91.7.2 Semantics of the service primitive
109	6.3.91.7.3 When generated 6.3.91.7.4 Effect on receipt 6.3.91.8 MLME-RLS.indication 6.3.91.8.1 Function 6.3.91.8.2 Semantics of the service primitive
110	6.3.91.8.3 When generated 6.3.91.8.4 Effect on receipt 6.3.91.9 MLME-RLS.response 6.3.91.9.1 Function 6.3.91.9.2 Semantics of the service primitive 6.3.91.9.3 When generated 6.3.91.9.4 Effect on receipt
111	6.3.91.10 MLME-RLSTeardown.request 6.3.91.10.1 Function 6.3.91.10.2 Semantics of the service primitive 6.3.91.10.3 When generated 6.3.91.10.4 Effect on receipt 6.3.91.11 MLME-RLSTeardown.indication 6.3.91.11.1 Function 6.3.91.11.2 Semantics of the service primitive
112	6.3.91.11.3 When generated 6.3.91.11.4 Effect on receipt 6.3.92 Quieting adjacent BSS operation 6.3.92.1 General 6.3.92.2 MLME-QAB.request 6.3.92.2.1 Function 6.3.92.2.2 Semantics of the service primitive
113	6.3.92.2.3 When generated 6.3.92.2.4 Effect on receipt 6.3.92.3 MLME-QAB.confirm 6.3.92.3.1 Function 6.3.92.3.2 Semantics of the service primitive
114	6.3.92.3.3 When generated 6.3.92.3.4 Effect on receipt 6.3.92.4 MLME-QAB.indication 6.3.92.4.1 Function 6.3.92.4.2 Semantics of the service primitive
115	6.3.92.4.3 When generated 6.3.92.4.4 Effect on receipt 6.3.92.5 MLME-QAB.response 6.3.92.5.1 Function 6.3.92.5.2 Semantics of the service primitive
116	6.3.92.5.3 When generated 6.3.92.5.4 Effect on receipt 6.3.93 DMG beamforming 6.3.93.1 General 6.3.93.2 MLME-BF-TRAINING.request 6.3.93.2.1 Function 6.3.93.2.2 Semantics of the service primitive 6.3.93.2.3 When generated
117	6.3.93.2.4 Effect on receipt 6.3.93.3 MLME-BF-TRAINING.confirm 6.3.93.3.1 Function 6.3.93.3.2 Semantics of the service primitive 6.3.93.3.3 When generated 6.3.93.3.4 Effect on receipt 6.3.93.4 MLME-BF-TRAINING.indication 6.3.93.4.1 Function 6.3.93.4.2 Semantics of the service primitive
118	6.3.93.4.3 When generated 6.3.93.4.4 Effect on receipt 6.3.94 PN event report 6.3.94.1 General 6.3.94.2 MLME-PN-Exhaustion.indication 6.3.94.2.1 Function 6.3.94.2.2 Semantics of the service primitive
119	6.3.94.2.3 When generated 6.3.94.2.4 Effect of receipt 6.3.94.3 MLME-PN-Warning.indication 6.3.94.3.1 Function 6.3.94.3.2 Semantics of the service primitive 6.3.94.3.3 When generated 6.3.94.3.4 Effect of receipt
120	6.5 PLME SAP interface 6.5.8 PLME-TXTIME.confirm 6.5.8.2 Semantics of the service primitive 6.5.9 PLME-DMGTESTMODE.request 6.5.9.1 Function 6.5.9.2 Semantics of the service primitive
121	6.5.9.3 When generated 6.5.9.4 Effect of receipt 6.5.9.5 Payload Types 6.5.9.5.1 All 1 6.5.9.5.2 All 0
122	6.5.9.5.3 8-bit count 6.5.9.5.4 32-bit count 6.5.9.5.5 PN23 6.5.10 PLME-DMGTESTOUTPUT.request 6.5.10.1 Function
123	6.5.10.2 Semantics of the service primitive 6.5.10.3 When generated 6.5.10.4 Effect of receipt
125	7. PHY service specification 7.3 Detailed PHY service specifications 7.3.4 Basic service and options 7.3.4.5 Vector descriptions 7.3.5 PHY-SAP detailed service specification 7.3.5.7a PHY-TXPLCPEND.indication 7.3.5.7a.1 Function 7.3.5.7a.2 Semantics of the service primitive 7.3.5.7a.3 When generated 7.3.5.7a.4 Effect of receipt
126	7.3.5.16 PHY-TxBusy.indication 7.3.5.16.1 Function 7.3.5.16.2 Semantics of the service primitive 7.3.5.16.3 When generated 7.3.5.16.4 Effect of receipt
127	8. Frame formats 8.2 MAC frame formats 8.2.3 General frame format 8.2.4 Frame fields 8.2.4.1 Frame Control field 8.2.4.1.1 General
128	8.2.4.1.3 Type and Subtype fields
129	8.2.4.1.4 To DS and From DS fields 8.2.4.1.5 More Fragments field 8.2.4.1.6 Retry field
130	8.2.4.1.8 More Data field
131	8.2.4.1.9 Protected Frame field 8.2.4.1.10 Order field 8.2.4.2 Duration/ID field 8.2.4.3 Address fields 8.2.4.3.4 BSSID field
132	8.2.4.5 QoS Control field 8.2.4.5.1 QoS Control field structure 8.2.4.5.2 TID subfield
133	8.2.4.5.3 EOSP (end of service period) subfield 8.2.4.5.4 Ack Policy subfield 8.2.4.5.9 A-MSDU Present subfield 8.2.4.5.13 A-MSDU Type subfield
134	8.2.4.5.14 RDG/More PPDU subfield 8.2.4.5.15 AC Constraint subfield 8.2.4.6 HT Control field 8.2.5 Duration/ID field (QoS STA) 8.2.5.1 General 8.2.5.3 Setting for QoS CF-Poll frames 8.2.5.4 Setting for frames sent by a TXOP holder under HCCA 8.2.5.5 Settings within a PSMP sequence 8.2.5.6 Settings within a dual CTS sequence
135	8.3 Format of individual frame types 8.3.1 Control frames 8.3.1.3 CTS frame format 8.3.1.5 PS-Poll frame format 8.3.1.6 CF-End frame format 8.3.1.7 CF-End+CF-Ack frame format 8.3.1.8 Block Ack Request (BlockAckReq) frame format 8.3.1.8.1 Overview
136	8.3.1.8.6 Extended Compressed BlockAckReq variant 8.3.1.9 Block Ack (BlockAck) frame format 8.3.1.9.1 Overview
137	8.3.1.9.6 Extended Compressed BlockAck variant
138	8.3.1.10 Control Wrapper frame 8.3.1.11 Poll frame format 8.3.1.12 Service Period Request (SPR) frame format
139	8.3.1.13 Grant frame format 8.3.1.14 DMG CTS frame format 8.3.1.15 DMG DTS frame format
140	8.3.1.16 Sector sweep (SSW) frame format 8.3.1.17 Sector sweep feedback (SSW-Feedback) frame format
141	8.3.1.18 Sector sweep ACK (SSW-ACK) frame format 8.3.1.19 Grant ACK frame format
142	8.3.2 Data frames 8.3.2.1 Data frame format
143	8.3.2.2 Aggregate MSDU (A-MSDU) format 8.3.2.2.1 General 8.3.2.2.2 Basic A-MSDU subframe format
144	8.3.2.2.3 Short A-MSDU subframe format
145	8.3.3 Management frames 8.3.3.1 Format of management frames 8.3.3.2 Beacon frame format 8.3.3.5 Association Request frame format
146	8.3.3.6 Association Response frame format 8.3.3.7 Reassociation Request frame format
147	8.3.3.8 Reassociation Response frame format 8.3.3.9 Probe Request frame format
148	8.3.3.10 Probe Response frame format 8.3.3.11 Authentication frame format 8.3.4 Extension frames 8.3.4.1 DMG Beacon
152	8.4 Management and Extension frame body components 8.4.1 Fields that are not information elements 8.4.1.3 Beacon Interval field 8.4.1.4 Capability Information field 8.4.1.8 AID field
153	8.4.1.9 Status Code field
154	8.4.1.11 Action field
155	8.4.1.44 Relay Capable STA Info field
156	8.4.1.45 Band ID field 8.4.1.46 DMG Parameters field
157	8.4.2 Information elements 8.4.2.1 General
158	8.4.2.21 Channel Switch Announcement element
159	8.4.2.23 Measurement Request element 8.4.2.23.1 General 8.4.2.23.16 Directional channel quality request
161	8.4.2.23.17 Directional measurement request
162	8.4.2.23.18 Directional statistics request
163	8.4.2.24 Measurement Report element 8.4.2.24.1 General 8.4.2.24.15 Directional channel quality report
164	8.4.2.24.16 Directional measurement report
166	8.4.2.24.17 Directional statistics report
167	8.4.2.27 RSNE 8.4.2.27.2 Cipher suites 8.4.2.27.4 RSN capabilities
168	8.4.2.29 Extended Capabilities element 8.4.2.32 TSPEC element
172	8.4.2.33 TCLAS element 8.4.2.48 Multiple BSSID element 8.4.2.51 Timeout Interval element (TIE)
173	8.4.2.74 Nontransmitted BSSID Capability element
174	8.4.2.129 DMG BSS Parameter Change element 8.4.2.130 DMG Capabilities element 8.4.2.130.1 General
175	8.4.2.130.2 DMG STA Capability Information field
178	8.4.2.130.3 DMG PCP/AP Capability Information field
179	8.4.2.131 DMG Operation element
180	8.4.2.132 DMG Beam Refinement element
182	8.4.2.133 Wakeup Schedule element
183	8.4.2.134 Extended Schedule element
185	8.4.2.135 STA Availability element
186	8.4.2.136 DMG TSPEC element
189	8.4.2.137 Next DMG ATI element 8.4.2.138 Channel Measurement Feedback element
191	8.4.2.139 Awake Window element
192	8.4.2.140 Multi-band element
194	8.4.2.141 ADDBA Extension element
195	8.4.2.142 Next PCP List element 8.4.2.143 PCP Handover element
196	8.4.2.144 DMG Link Margin element 8.4.2.144.1 General 8.4.2.144.2 Activity field
197	8.4.2.145 DMG Link Adaptation Acknowledgment element 8.4.2.146 Switching Stream element
198	8.4.2.147 Session Transition element
200	8.4.2.148 Dynamic Tone Pairing (DTP) Report element 8.4.2.149 Cluster Report element
202	8.4.2.150 Relay Capabilities element
203	8.4.2.151 Relay Transfer Parameter Set element
204	8.4.2.152 Quiet Period Request element
205	8.4.2.153 Quiet Period Response element 8.4.2.154 BeamLink Maintenance element
206	8.4.2.155 Multiple MAC Sublayers (MMS) element
207	8.4.2.156 Upper Layer Protocol Identification element
208	8.4.2.157 ECPAC Policy element
209	8.4.2.158 Cluster Time Offset element
210	8.4.2.159 Antenna Sector ID Pattern element
211	8.4a Fields used in Management and Extension frame bodies and Control frames 8.4a.1 Sector Sweep field
212	8.4a.2 Dynamic Allocation Info field
213	8.4a.3 Sector Sweep Feedback field 8.4a.4 BRP Request field
214	8.4a.5 Beamforming Control field
216	8.4a.6 Beamformed Link Maintenance field
217	8.5 Action frame format details 8.5.3 QoS Action frame details 8.5.3.1 General 8.5.3.2 Basic and DMG ADDTS Request frame formats 8.5.3.2.1 Basic ADDTS Request frame variant
218	8.5.3.2.2 DMG ADDTS Request frame variant
219	8.5.3.3 Basic and DMG ADDTS Response frame format 8.5.3.3.1 Basic ADDTS Response frame variant
220	8.5.3.3.2 DMG ADDTS Response frame variant
221	8.5.3.4 DELTS frame format
222	8.5.5 Block Ack Action frame details 8.5.5.2 ADDBA Request frame format 8.5.5.3 ADDBA Response frame format
223	8.5.5.4 DELBA frame format 8.5.7 Radio Measurement action details 8.5.7.5 Link Measurement Report frame format
224	8.5.8 Public Action details 8.5.8.1 Public Action frames 8.5.8.12 GAS Initial Request frame format
225	8.5.8.13 GAS Initial Response frame format 8.5.8.14 GAS Comeback Request frame format
226	8.5.8.15 GAS Comeback Response frame format 8.5.8.16 TDLS Discovery Response frame format 8.5.8.25 QAB Request frame format
227	8.5.8.26 QAB Response frame format
228	8.5.11 Protected Dual of Public Action frames 8.5.13 TDLS Action field formats 8.5.13.2 TDLS Setup Request Action field format 8.5.13.3 TDLS Setup Response Action field format
229	8.5.13.12 TDLS Discovery Request Action field format 8.5.19 Robust AV Streaming Action frame details 8.5.20 DMG Action frame details 8.5.20.1 DMG Action field
230	8.5.20.2 Power Save Configuration Request frame format 8.5.20.3 Power Save Configuration Response frame format
231	8.5.20.4 Information Request frame format
232	8.5.20.5 Information Response frame format
233	8.5.20.6 Handover Request frame format 8.5.20.7 Handover Response frame format
234	8.5.20.8 DTP Request frame format 8.5.20.9 DTP Report frame format
235	8.5.20.10 Relay Search Request frame format 8.5.20.11 Relay Search Response frame format
236	8.5.20.12 Multi-relay Channel Measurement Request frame format 8.5.20.13 Multi-relay Channel Measurement Report frame format
237	8.5.20.14 RLS Request frame format
238	8.5.20.15 RLS Response frame format
239	8.5.20.16 RLS Announcement frame format
240	8.5.20.17 RLS Teardown frame format 8.5.20.18 Relay ACK Request frame format
241	8.5.20.19 Relay ACK Response frame format 8.5.20.20 TPA Request frame format
242	8.5.20.21 TPA Response frame format
243	8.5.20.22 TPA Report frame format 8.5.20.23 ROC Request frame format
244	8.5.20.24 ROC Response frame format 8.5.21 FST Action frame details 8.5.21.1 FST Action field
245	8.5.21.2 FST Setup Request frame format
246	8.5.21.3 FST Setup Response frame format
247	8.5.21.4 FST Tear Down frame format 8.5.21.5 FST Ack Request frame format
248	8.5.21.6 FST Ack Response frame format 8.5.21.7 On-channel Tunnel Request frame format
249	8.5.22 Unprotected DMG Action frame details 8.5.22.1 Unprotected DMG Action field
250	8.5.22.2 Announce frame format
251	8.5.22.3 BRP frame format
252	8.6 Aggregate MPDU (A-MPDU) 8.6.1 A-MPDU format
253	8.6.3 A-MPDU contents
255	9. MAC sublayer functional description 9.2 MAC architecture 9.2.1 General
256	9.2.2 DCF 9.2.4 Hybrid coordination function (HCF) 9.2.4.2 HCF contention-based channel access (EDCA) 9.2.7 Fragmentation/defragmentation overview
257	9.3 DCF 9.3.1 General 9.3.2 Procedures common to the DCF and EDCAF 9.3.2.1 CS mechanism
258	9.3.2.3 IFS 9.3.2.3.1 General 9.3.2.3.2 RIFS 9.3.2.3.3 SIFS
259	9.3.2.3.4 PIFS 9.3.2.3.6 AIFS
260	9.3.2.3.8 SBIFS 9.3.2.3.9 BRPIFS 9.3.2.3.10 MBIFS 9.3.2.3.11 LBIFS
261	9.3.2.4 Setting and resetting the NAV 9.3.2.6 CTS and DMG CTS procedure 9.3.2.10 Duplicate detection and recovery
262	9.3.2.11 NAV distribution 9.3.3 Random backoff time 9.3.4 DCF access procedure 9.3.4.2 Basic access
263	9.3.4.3 Backoff procedure for DCF
264	9.3.4.4 Recovery procedures and retransmit limits
265	9.3.6 Group addressed MPDU transfer procedure 9.5 Fragmentation 9.7 Multirate support 9.7.1 Overview
266	9.7.5a Multirate support for DMG STAs 9.7.5a.1 Usage of DMG Control modulation class 9.7.5a.2 Rate selection rules for control frames transmitted by DMG STAs
267	9.7.5a.3 Rate selection for group addressed data and management frames transmitted by DMG STAs 9.7.5a.4 Rate selection for individually addressed data and management frames transmitted by DMG STAs 9.7.5a.5 Rate selection for BRP packets
268	9.7.8 Modulation classes 9.11 A-MSDU operation
269	9.12 A-MPDU operation 9.12.1 A-MPDU contents 9.12.2 A-MPDU length limit rules 9.12.3 Minimum MPDU Start Spacing
270	9.12.4 A-MPDU aggregation of group addressed data frames
271	9.13 PPDU duration constraint 9.13a DMG A-PPDU operation 9.18 Operation across regulatory domains 9.18.2 Operation upon entering a regulatory domain
272	9.18.6 Operation with coverage classes 9.19 HCF 9.19.1 General
273	9.19.2 HCF contention-based channel access (EDCA) 9.19.2.1 Reference implementation 9.19.2.5 EDCA backoff procedure 9.19.2.7 Truncation of TXOP
274	9.21 Block Acknowledgment (Block Ack) 9.21.1 Introduction 9.21.2 Setup and modification of the Block Ack parameters
275	9.21.3 Data and acknowledgment transfer using immediate Block Ack policy and delayed Block Ack policy 9.21.6 Selection of BlockAck and BlockAckReq variants
276	9.21.7 HT-immediate Block Ack extensions 9.21.7.2 HT-immediate Block Ack architecture 9.21.7.2.1 Introduction 9.21.7.2.2 Data and acknowledgment transfer 9.21.7.5 Generation and transmission of BlockAck by an HT or DMG STA 9.21.7.6 Receive reordering buffer control operation 9.21.7.6.2 Operation for each received data MPDU
277	9.21.7.7 Originator’s behavior 9.24 MAC frame processing 9.24.3 Duration/ID field processing 9.25 Reverse Direction protocol 9.25.0a General
278	9.25.1 Reverse Direction (RD) exchange sequence 9.25.2 Support for RD 9.25.3 Rules for RD initiator
279	9.25.4 Rules for RD responder
280	9.26 PSMP operation 9.26.0a General
281	9.32 Mesh forwarding framework 9.33 DMG channel access 9.33.1 General 9.33.2 Access periods within a beacon interval
282	9.33.3 ATI transmission rules
284	9.33.4 DTI transmission rules 9.33.5 Contention-based access period (CBAP) transmission rules
285	9.33.6 Channel access in scheduled DTI 9.33.6.1 General
286	9.33.6.2 Service period (SP) allocation
287	9.33.6.3 Contention-based access period (CBAP) allocation
288	9.33.6.4 Pseudo-static allocations
289	9.33.6.5 Guard time
290	9.33.6.6 DMG Protected Period 9.33.6.6.1 Introduction
291	9.33.6.6.2 DMG Protected Period establishment and maintenance
292	9.33.6.6.3 NAV Update in DMG Protected Period 9.33.6.6.4 Interference report
293	9.33.6.7 Service period recovery 9.33.7 Dynamic allocation of service period 9.33.7.1 General
295	9.33.7.2 Polling period (PP)
296	9.33.7.3 Grant period (GP)
297	9.33.8 Dynamic truncation of service period
298	9.33.9 Dynamic extension of service period
299	9.33.10 Updating multiple NAV timers
302	9.34 DMG PCP/AP clustering 9.34.1 General
303	9.34.2 Cluster formation 9.34.2.1 Decentralized PCP/AP cluster formation
304	9.34.2.2 Centralized PCP/AP cluster formation
307	9.34.3 Cluster maintenance 9.34.3.1 General cluster maintenance 9.34.3.2 Decentralized PCP/AP cluster maintenance
308	9.34.3.3 Centralized PCP/AP cluster maintenance
309	9.34.3.4 Centralized PCP/AP cluster MAC requirements
310	9.34.4 Cluster report and re-scheduling
311	9.34.5 Decentralized PCP/AP cluster request
312	9.35 DMG beamforming 9.35.1 General
315	9.35.2 Sector-level sweep (SLS) phase 9.35.2.1 General
316	9.35.2.2 Initiator Sector Sweep 9.35.2.2.1 General
317	9.35.2.2.2 Initiator TXSS
318	9.35.2.2.3 Initiator RXSS
319	9.35.2.3 Responder Sector Sweep 9.35.2.3.1 General 9.35.2.3.2 Responder TXSS
321	9.35.2.3.3 Responder RXSS 9.35.2.4 Sector Sweep Feedback
322	9.35.2.5 Sector Sweep ACK
323	9.35.3 Beam Refinement Protocol (BRP) phase 9.35.3.1 General
324	9.35.3.2 BRP setup subphase
327	9.35.4 Beamforming in BTI
328	9.35.5 Beamforming in A-BFT 9.35.5.1 Allocation of A-BFT 9.35.5.2 Operation during the A-BFT
331	9.35.5.3 STA Beamforming after A-BFT
332	9.35.5.4 Beamforming in A-BFT with multiple DMG antennas 9.35.6 Beamforming in DTI 9.35.6.1 General
333	9.35.6.2 SLS phase execution
334	9.35.6.3 MIDC (multiple sector ID capture) subphase 9.35.6.3.1 General
336	9.35.6.3.2 MIDC subphase with MID and BC subphases
340	9.35.6.3.3 MIDC subphase with MID subphase only
342	9.35.6.3.4 MIDC subphase with BC subphase only 9.35.6.4 BRP phase execution 9.35.6.4.1 General
343	9.35.6.4.2 Beam refinement transaction 9.35.6.4.3 Beam refinement transaction after SLS
344	9.35.6.4.4 Antenna configuration setting during a beam refinement transaction
345	9.35.7 Beam tracking
347	9.35.8 State machines
348	9.36 DMG Block Ack with flow control 9.36.1 General 9.36.2 DMG Block Ack architecture with flow control
350	9.36.3 Scoreboard context control with flow control 9.36.4 Receive Reordering Buffer with flow control operation 9.36.4.1 General 9.36.4.2 Operation for DMG Block Ack agreement initialization
351	9.36.4.3 Operation for each received data MPDU
352	9.36.4.4 Operation for ongoing release of received MPDUs 9.36.5 Generation and transmission of BlockAck by a STA with flow control 9.36.6 Originator’s behavior with flow control support 9.37 DMG link adaptation 9.37.1 General
353	9.37.2 DMG TPC
354	9.37.3 Fast link adaptation
355	9.38 DMG dynamic tone pairing (DTP)
356	9.39 DMG relay operation 9.39.1 General 9.39.2 Link switching type 9.39.2.1 General 9.39.2.2 SP request and allocation 9.39.2.3 Usage of RDS
357	9.39.2.4 Relay frame exchange rules 9.39.2.4.1 General
358	9.39.2.4.2 Additional frame exchange rules for FD-AF RDS 9.39.2.4.3 Additional frame exchange rules for HD-DF RDS
360	9.39.2.4.4 Operation of FD-AF RDS 9.39.2.5 Link monitoring 9.39.3 Link cooperating type 9.39.3.1 TPA procedure
361	9.39.3.2 Frame exchange operation 9.39.3.2.1 General 9.39.3.2.2 Cooperative transmission SP request and allocation
362	9.39.3.2.3 Data transmission rules 9.39.4 Relay link adaptation
363	10. MLME 10.1 Synchronization 10.1.1 General 10.1.2 Basic approach 10.1.2.1 TSF for infrastructure networks and PBSS networks 10.1.3 Maintaining synchronization 10.1.3.1 General
364	10.1.3.2 Beacon generation in non-DMG infrastructure networks 10.1.3.2a Beacon generation in a DMG infrastructure BSS and in a PBSS 10.1.3.2a.1 General
365	10.1.3.2a.2 Beacon generation in a PBSS 10.1.3.2a.3 Beacon generation in a DMG infrastructure BSS
366	10.1.3.2b DMG Beacon generation before network initialization
367	10.1.3.3 Beacon generation in an IBSS 10.1.3.5 Beacon reception
368	10.1.3.6 Multiple BSSID procedure
369	10.1.3.7 TSF timer accuracy 10.1.4 Acquiring synchronization, scanning 10.1.4.1 General
370	10.1.4.2 Passive scanning 10.1.4.2.1 Passive scanning for non-DMG STAs
371	10.1.4.2.2 Passive scanning for DMG STAs 10.1.4.3 Active scanning 10.1.4.3.2 Sending a probe response
372	10.1.4.3.3 Active scanning procedure
373	10.1.4.3.4 PCP selection in a PBSS
374	10.1.4.4 Initializing a BSS 10.1.4.4.1 General 10.1.4.4.2 Initializing a DMG BSS
375	10.1.4.5 Synchronizing with a BSS 10.1.5 Adjusting STA timers 10.1.7 Terminating a network
376	10.2 Power management 10.2.1 Power management in an non-DMG infrastructure network 10.2.1.2 STA Power Management modes 10.2.4 SM power save 10.2.5 Power management in a PBSS and DMG infrastructure BSS 10.2.5.1 General
378	10.2.5.2 Non-PCP/non-AP STA power management mode 10.2.5.2.1 General
379	10.2.5.2.2 Power management mode operation of a non-PCP/non-AP STA with no wakeup schedule
380	10.2.5.2.3 Power management mode operation of a non-PCP/non-AP STA with a wakeup schedule
381	10.2.5.2.4 Power management mode operation of a non-PCP/non-AP STA with or without a wakeup schedule
382	10.2.5.3 PCP Power management mode
383	10.3 STA authentication and association 10.3.1 State variables
384	10.3.2 State transition diagram for nonmesh STAs
385	10.3.3 Frame filtering based on STA state
387	10.3.4 Authentication and deauthentication 10.3.4.1 General 10.3.4.2 Authentication—originating STA
388	10.3.5 Association, reassociation, and disassociation 10.3.5.1 General
389	10.3.5.2 Non-PCP/Non-AP STA association initiation procedures
390	10.3.5.3 PCP/AP association receipt procedures
391	10.3.5.4 Non-PCP/Non-AP STA reassociation initiation procedures
393	10.3.5.5 PCP/AP STA reassociation receipt procedures
394	10.3.5.6 Non-PCP/Non-AP STA disassociation initiation procedures
395	10.3.5.7 Non-PCP/Non-AP STA disassociation receipt procedures 10.3.5.8 PCP/AP disassociation initiation procedure
396	10.3.5.9 PCP/AP disassociation receipt procedure 10.3.5.10 PBSS procedures for nonassociated STAs
397	10.3.6 Additional mechanisms for an AP collocated with a mesh STA 10.3.7 Communicating PBSS information 10.4 TS operation 10.4.1 Introduction
399	10.4.2 TSPEC Construction 10.4.3 TS life cycle
400	10.4.4 TS Setup 10.4.4.2 Non-Ap-STA-initiated TS setup 10.4.4.4 TS setup procedures for both AP and non-AP STA initiation
403	10.4.7 Failed TS Setup 10.4.8 Data Transfer
404	10.4.9 TS Deletion 10.4.10 TS Timeout
406	10.4.13 DMG allocation formats 10.4.13.1 General 10.4.13.2 Isochronous allocations 10.4.13.3 Asynchronous allocations
407	10.4.14 PTP TS Operation 10.5 Block Ack operation 10.5.2 Setup and modification of the Block Ack parameters 10.5.2.2 Procedure at the originator
408	10.5.2.4 Procedure common to both originator and recipient 10.7 DLS operation 10.7.1 General
409	10.8 TPC procedures 10.8.1 General 10.8.2 Association based on transmit power capability 10.8.4 Specification of regulatory and local maximum transmit power levels
410	10.8.6 Adaptation of the transmit power 10.9 DFS procedures 10.9.1 General
411	10.9.2 Association based on supported channels 10.9.2.1 Association based on supported channels in a non-DMG BSS 10.9.2.2 Providing supported channels upon association in a DMG BSS 10.9.3 Quieting channels for testing 10.9.7 Requesting and reporting of measurements
412	10.9.8 Selecting and advertising a new channel 10.9.8.6 Selecting and advertising a new channel in a DMG BSS
413	10.11 Radio measurement procedures 10.11.6 Requesting and reporting of measurements 10.11.8 Triggered autonomous reporting 10.11.11 Link Measurement
414	10.11.14 Multiple BSSID Set 10.11.16 Access Delay Measurement 10.22 Tunneled direct-link setup 10.22.1 General 10.23 Wireless network management procedures 10.23.14 Channel usage procedures
415	10.23.15 Group addressed transmission service 10.23.15.1 General 10.23.15.2 DMS procedures 10.23.15.3 GCR procedures 10.23.15.3.1 Overview
416	10.24 WLAN interworking with external networks procedures 10.24.3 Interworking procedures: generic advertisement service (GAS) 10.24.3.1 GAS Protocol 10.24.3.1.2 STA procedures to transmit a GAS Query 10.24.3.1.4 STA procedures for transmitting the GAS Query Response 10.27 Procedures to manage OBSS 10.28 DMG beamformed link and BSS maintenance 10.28.1 Beamformed link maintenance
419	10.28.2 PCP Handover 10.28.2.1 General 10.28.2.2 Explicit Handover procedure
420	10.28.2.3 Implicit Handover procedure
421	10.29 DMG BSS peer and service discovery 10.29.1 Information Request and Response 10.29.2 Peer Service Discovery
422	10.30 Changing DMG BSS parameters 10.30.1 General 10.30.2 Moving the TBTT
423	10.30.3 Changing beacon interval duration
424	10.30.4 Maintaining synchronization in a PCP/AP cluster 10.30.5 Recommending DMG BSS parameters to the PCP/AP
425	10.31 Spatial sharing and interference mitigation for DMG STAs 10.31.1 General 10.31.2 Spatial sharing and interference assessment
427	10.31.3 Achieving spatial sharing and interference mitigation
428	10.31.4 PBSS and infrastructure BSS stability in OBSS scenarios 10.32 Multi-band operation 10.32.1 General
430	10.32.2 FST setup protocol 10.32.2.1 General
431	10.32.2.2 Transitioning between states
437	10.32.2.3 FST TS switching
439	10.32.3 FST teardown 10.32.4 On-channel Tunneling (OCT) operation
441	10.32.5 FST payload 10.33 MMSL cluster operation 10.33.1 Introduction
442	10.33.2 MMSL cluster setup 10.33.2.1 General
443	10.33.2.2 MMSL cluster setup of non-PCP/non-AP MM-SME coordinated STA with PCP/AP 10.33.2.3 MMSL cluster setup of non-PCP/non-AP STA with another non-PCP/non-AP STA 10.34 DMG coexistence with non-IEEE-802.11 systems
444	10.35 DMG relay procedures 10.35.1 General
445	10.35.2 Common relay setup procedures 10.35.2.1 Introduction 10.35.2.2 Relay capabilities and RDS discovery procedures 10.35.2.3 RDS selection procedure
446	10.35.2.4 RLS procedure 10.35.3 Relay operation-type change procedure
447	10.35.4 Relay teardown 10.36 Quieting adjacent DMG BSSs 10.36.1 General
448	10.36.2 Procedure at the requester AP 10.36.3 Procedure at the responder AP 10.37 DMG beamforming
451	10.38 DMG MAC sublayer parameters
453	11. Security 11.1 Framework 11.1.2 Security methods 11.1.3 RSNA equipment and RSNA capabilities 11.1.4 RSNA establishment
455	11.4 RSNA confidentiality and integrity protocols 11.4.1 Overview 11.4.3 CTR with CBC-MAC Protocol (CCMP) 11.4.3.1 General 11.4.3.3 CCMP cryptographic encapsulation 11.4.3.3.3 Construct AAD 11.4.4 Broadcast/Multicast Integrity Protocol (BIP) 11.4.5 GCM with Galois Message Authentication Code (GMAC) Protocol (GCMP) 11.4.5.1 GCMP overview
456	11.4.5.2 GCMP MPDU format 11.4.5.3 GCMP cryptographic encapsulation 11.4.5.3.1 General
457	11.4.5.3.2 PN processing 11.4.5.3.3 Construct AAD
458	11.4.5.3.4 Construct GCM nonce 11.4.5.3.5 Construct GCMP header 11.4.5.3.6 GCM originator processing 11.4.5.4 GCMP decapsulation 11.4.5.4.1 General
459	11.4.5.4.2 GCM recipient processing
460	11.4.5.4.3 Decrypted GCMP MPDU 11.4.5.4.4 PN and replay detection
461	11.5 RSNA security association management 11.5.1 Security associations 11.5.1.1 Security association definitions 11.5.1.1.2 PMKSA 11.5.1.1.6 PTKSA 11.5.1.3 Security association life cycle 11.5.1.3.1 General 11.5.1.3.5 Security association in a PBSS
462	11.5.2 RSNA selection 11.5.7a RSNA policy selection in a PBSS 11.5.8 RSNA management of the IEEE 802.1X Controlled Port
463	11.5.11a RSNA authentication in a PBSS 11.5.14a RSNA key management in a PBSS 11.5.15 RSNA security association termination 11.5.18 RSNA rekeying
464	11.5.19 Multi-band RSNA 11.5.19.1 General
465	11.5.19.2 Nontransparent multi-band RSNA
466	11.5.19.3 Transparent multi-band RSNA 11.5.19.4 Multi-band RSNA with TDLS in a non-DMG BSS
467	11.6 Keys and key distribution 11.6.2 EAPOL-Key frames
468	11.6.6 4-Way Handshake 11.6.6.3 4-Way Handshake Message 2 11.6.6.4 4-Way Handshake Message 3
469	11.7 Mapping EAPOL keys to IEEE 802.11 keys 11.7.8 Mapping PTK to GCMP keys
471	13. MLME mesh procedures 13.1 Mesh STA dependencies
473	21. Directional multi-gigabit (DMG) PHY specification 21.1 DMG PHY introduction 21.1.1 Scope 21.1.2 DMG PHY functions 21.1.2.1 DMG PLCP sublayer 21.1.2.2 DMG PMD sublayer 21.1.2.3 PHY management entity (PLME)
474	21.1.2.4 Service specification method 21.2 DMG PHY service interface 21.2.1 Introduction 21.2.2 TXVECTOR and RXVECTOR parameters
476	21.2.3 TXSTATUS parameters
477	21.3 Common parameters 21.3.1 Channelization 21.3.2 Transmit mask 21.3.3 Common requirements 21.3.3.1 Introduction 21.3.3.2 Transmit RF delay 21.3.3.3 Center frequency tolerance 21.3.3.3.1 General
478	21.3.3.3.2 Center frequency convergence 21.3.3.4 Symbol clock tolerance 21.3.3.5 Transmit center frequency leakage 21.3.3.6 Transmit rampup and rampdown 21.3.3.7 Antenna setting 21.3.3.8 Maximum input requirement 21.3.3.9 Receive sensitivity
480	21.3.4 Timing-related parameters
481	21.3.5 Mathematical conventions in the signal description 21.3.5.1 General
482	21.3.5.2 Windowing function 21.3.6 Common preamble 21.3.6.1 General
483	21.3.6.2 Short Training field 21.3.6.3 Channel Estimation field
484	21.3.6.4 Transmission of the preamble and BRP fields in an OFDM packet 21.3.6.4.1 General
485	21.3.6.4.2 hFilt definition 21.3.7 HCS calculation for headers of control PHY, OFDM PHY, and SC PHY 21.3.8 Common LDPC parity matrices 21.3.8.1 General
486	21.3.8.2 Rate-1/2 LDPC code matrix H = 336 rows x 672 columns, Z = 42 21.3.8.3 Rate-5/8 LDPC code matrix H = 252 rows x 672 columns, Z = 42
487	21.3.8.4 Rate-3/4 LDPC code matrix H = 168 rows x 672 columns, Z = 42 21.3.8.5 Rate-13/16 LDPC code matrix H = 126 rows x 672 columns, Z = 42 21.3.9 Scrambler
488	21.3.10 Received channel power indicator (RCPI) measurement 21.4 DMG control PHY 21.4.1 Introduction 21.4.2 Frame format
489	21.4.3 Transmission 21.4.3.1 Preamble 21.4.3.1.1 General 21.4.3.1.2 Short Training field 21.4.3.1.3 Channel Estimation field
490	21.4.3.2 Header 21.4.3.2.1 General 21.4.3.2.2 Generation of HCS bits 21.4.3.2.3 Header encoding and modulation
491	21.4.3.3 Data field 21.4.3.3.1 General 21.4.3.3.2 Scrambler 21.4.3.3.3 Encoder 21.4.3.3.4 Modulation
492	21.4.3.3.5 Spreading 21.4.4 Performance requirements 21.4.4.1 Transmit requirements 21.4.4.1.1 Introduction 21.4.4.1.2 Transmit EVM
493	21.4.4.2 Receive requirements 21.4.4.2.1 Introduction 21.4.4.2.2 CCA 21.5 DMG OFDM PHY 21.5.1 Introduction 21.5.2 Frame format 21.5.3 Transmission 21.5.3.1 Header 21.5.3.1.1 General
495	21.5.3.1.2 Modulation and coding scheme
496	21.5.3.1.3 Generation of the HCS bits 21.5.3.1.4 Header encoding and modulation 21.5.3.2 Data field 21.5.3.2.1 General
497	21.5.3.2.2 Scrambler 21.5.3.2.3 Encoding
498	21.5.3.2.4 Modulation mapping
501	21.5.3.2.5 Pilot sequence 21.5.3.2.6 OFDM modulation
502	21.5.4 Performance requirements 21.5.4.1 Transmit requirements 21.5.4.1.1 Introduction 21.5.4.1.2 Transmit EVM
503	21.5.4.1.3 Tx flatness 21.5.4.1.4 Time of Departure accuracy 21.5.4.2 Receive requirements 21.5.4.2.1 Introduction
504	21.5.4.2.2 CCA 21.6 DMG SC PHY 21.6.1 Introduction 21.6.2 Frame format 21.6.3 Transmission 21.6.3.1 Header 21.6.3.1.1 General
505	21.6.3.1.2 Modulation and coding scheme
506	21.6.3.1.3 Generation of the HCS bits 21.6.3.1.4 Header encoding and modulation
507	21.6.3.2 Data field 21.6.3.2.1 General 21.6.3.2.2 Scrambler 21.6.3.2.3 Encoding
509	21.6.3.2.4 Modulation mapping
510	21.6.3.2.5 Symbol blocking and guard insertion
511	21.6.4 Performance requirements 21.6.4.1 Transmit requirements 21.6.4.1.1 Transmit EVM
512	21.6.4.1.2 Time of Departure accuracy 21.6.4.2 Receive requirements 21.6.4.2.1 Introduction 21.6.4.2.2 CCA 21.7 DMG low-power SC PHY 21.7.1 Introduction
513	21.7.2 Transmission 21.7.2.1 Preamble 21.7.2.2 Header 21.7.2.2.1 General 21.7.2.2.2 Header encoding and modulation 21.7.2.3 Data field 21.7.2.3.1 General
514	21.7.2.3.2 Scrambler 21.7.2.3.3 Encoding
515	21.7.2.3.4 Modulation 21.7.2.3.5 Blocking
516	21.8 PLCP transmit procedure
519	21.9 PLCP receive procedure
521	21.10 Beamforming 21.10.1 Beamforming concept 21.10.2 Beamforming PHY frame format 21.10.2.1 TX sector sweep 21.10.2.2 Beam refinement 21.10.2.2.1 General 21.10.2.2.2 BRP packet structure
522	21.10.2.2.3 BRP packet header fields 21.10.2.2.4 BRP packet duration
523	21.10.2.2.5 Beam refinement AGC field 21.10.2.2.6 Beam refinement TRN-R field 21.10.2.2.7 Beam refinement TRN-T field 21.10.2.2.8 Channel measurement
524	21.10.2.2.9 BRP resampling in an OFDM packet 21.11 Golay sequences
525	21.12 DMG PLME 21.12.1 PLME_SAP sublayer management primitives 21.12.2 DMG PHY MIB
526	21.12.3 TXTIME calculation 21.12.4 PHY characteristics
528	21.13 DMG PMD sublayer 21.13.1 Scope and field of application 21.13.2 Overview of service 21.13.3 Overview of interactions 21.13.4 Basic service and options 21.13.4.1 Status of service primitives 21.13.4.2 PMD_SAP peer-to-peer service primitives
529	21.13.4.3 PMD_SAP sublayer-to-sublayer service primitives 21.13.5 PMD_SAP detailed service specification 21.13.5.1 Introduction to PMD_SAP service specification 21.13.5.2 PMD_DATA.request 21.13.5.2.1 Function 21.13.5.2.2 Semantics of the service primitive 21.13.5.2.3 When generated 21.13.5.2.4 Effect of receipt 21.13.5.3 PMD_DATA.indication 21.13.5.3.1 Function
530	21.13.5.3.2 Semantics of the service primitive 21.13.5.3.3 When generated 21.13.5.3.4 Effect of receipt 21.13.5.4 PMD_TXSTART.request 21.13.5.4.1 Function 21.13.5.4.2 Semantics of the service primitive 21.13.5.4.3 When generated 21.13.5.4.4 Effect of receipt 21.13.5.5 PMD_TXEND.request 21.13.5.5.1 Function 21.13.5.5.2 Semantics of the service primitive 21.13.5.5.3 When generated
531	21.13.5.5.4 Effect of receipt 21.13.5.6 PMD_TXEND.confirm 21.13.5.6.1 Function 21.13.5.6.2 Semantics of the service primitive 21.13.5.6.3 When generated 21.13.5.6.4 Effect of receipt 21.13.5.7 PMD_RCPI.indication 21.13.5.7.1 Function 21.13.5.7.2 Semantics of the service primitive 21.13.5.7.3 When generated 21.13.5.7.4 Effect of receipt
532	21.13.5.8 PMD_TXPWRLVL.request 21.13.5.8.1 Function 21.13.5.8.2 Semantics of the service primitive 21.13.5.8.3 When generated 21.13.5.8.4 Effect of receipt 21.13.5.9 PMD_RSSI.indication 21.13.5.9.1 Function 21.13.5.9.2 Semantics of the service primitive 21.13.5.9.3 When generated 21.13.5.9.4 Effect of receipt
533	Annex B (normative) Protocol Implementation Conformance Statement (PICS) proforma
551	Annex C (normative) ASN.1 encoding of the MAC and PHY MIB
573	Annex E (normative) Country elements and operating classes
575	Annex H (normative) Usage of Ethertype 89-0d
577	Annex L (informative) Examples of encoding a frame for OFDM PHYs and DMG PHYs
611	Annex M (informative) RSNA reference implementations and test vectors
627	Annex N (informative) Admission control
629	Annex Y (informative) Functions of the centralized coordination service root (CCSR)
631	Annex Z (informative) TSPEC aggregation for DMG BSSs

Additional information

Standard Title	ISO/IEC/IEEE International 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 3: Enhancements for Very High Throughput in the 60 GHz Band (adoption of IEEE Std 802.11ad-2012)
Published Code	IEEE
Publication Date	2014

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