Amendment Standard – Active. The IEEE 802.11™ directional multi-gigabit (DMG) physical layer (PHY) and the medium access control (MAC) layer are modified by this amendment to IEEE Std 802.11™-2016 to enable operation in the Chinese millimeter wave frequency band around 60 GHz. This amendment also defines modifications to the IEEE 802.11 PHY and MAC layer to enable operation in the Chinese millimeter wave frequency band around 45 GHz. (The PDF of this standard is available at no cost to you compliments of the IEEE GET program https://ieeexplore.ieee.org/browse/standards/get-program/page/)

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std 802.11aj-2018 Front Cover
2	Title page
4	Important Notices and Disclaimers Concerning IEEE Standards Documents
7	Participants
11	Introduction
12	Contents
22	Tables
25	Figures
28	1. Overview 1.3 Supplementary information on purpose
29	3. Definitions, acronyms, and abbreviations 3.2 Definitions specific to IEEE Std 802.11
30	3.4 Abbreviations and acronyms
31	4. General description 4.3 Components of the IEEE 802.11 architecture 4.3.25 CDMG STA 4.3.26 CMMG STA
33	6. Layer management 6.3 MLME SAP interface 6.3.3 Scan 6.3.3.3 MLME-SCAN.confirm 6.3.3.3.2 Semantics of the service primitive 6.3.7 Associate 6.3.7.2 MLME-ASSOCIATE.request 6.3.7.2.2 Semantics of the service primitive
34	6.3.7.3 MLME-ASSOCIATE.confirm 6.3.7.3.2 Semantics of the service primitive 6.3.7.4 MLME-ASSOCIATE.indication 6.3.7.4.2 Semantics of the service primitive
35	6.3.7.5 MLME-ASSOCIATE.response 6.3.7.5.2 Semantics of the service primitive
36	6.3.8 Reassociate 6.3.8.2 MLME-REASSOCIATE.request 6.3.8.2.2 Semantics of the service primitive 6.3.8.3 MLME-REASSOCIATE.confirm 6.3.8.3.2 Semantics of the service primitive
37	6.3.8.4 MLME-REASSOCIATE.indication 6.3.8.4.2 Semantics of the service primitive
38	6.3.8.5 MLME-REASSOCIATE.response 6.3.8.5.2 Semantics of the service primitive 6.3.11 Start 6.3.11.2 MLME-START.request 6.3.11.2.2 Semantics of the service primitive
39	6.3.11.2.4 Effect of receipt 6.3.26 TS management interface 6.3.26.1 General
40	6.3.26.2 MLME-ADDTS.request 6.3.26.2.2 Semantics of the service primitive 6.3.26.3 MLME-ADDTS.confirm 6.3.26.3.2 Semantics of the service primitive
41	6.3.26.3.3 When generated 6.3.26.4 MLME-ADDTS.indication 6.3.26.4.1 Function
42	6.3.26.4.2 Semantics of the service primitive 6.3.26.5 MLME-ADDTS.response 6.3.26.5.2 Semantics of the service primitive
43	6.3.118 DCS procedure 6.3.118.1 General 6.3.118.2 MLME-DCSMEASUREMENT.request 6.3.118.2.1 Function 6.3.118.2.2 Semantics of the service primitive 6.3.118.2.3 When generated
44	6.3.118.2.4 Effect on receipt 6.3.118.3 MLME-DCSMEASUREMENT.indication 6.3.118.3.1 Function 6.3.118.3.2 Semantics of the service primitive 6.3.118.3.3 When generated 6.3.118.3.4 Effect on receipt 6.3.118.4 MLME-DCSMEASUREMENT.response 6.3.118.4.1 Function 6.3.118.4.2 Semantics of the service primitive
45	6.3.118.4.3 When generated 6.3.118.4.4 Effect on receipt 6.3.118.5 MLME-DCSMEASUREMENT.confirm 6.3.118.5.1 Function 6.3.118.5.2 Semantics of the service primitive 6.3.118.5.3 When generated 6.3.118.5.4 Effect on receipt
46	6.3.118.6 MLME-DCS.request 6.3.118.6.1 Function 6.3.118.6.2 Semantics of the service primitive 6.3.118.6.3 When generated 6.3.118.6.4 Effect on receipt 6.3.118.7 MLME-DCS.indication 6.3.118.7.1 Function 6.3.118.7.2 Semantics of the service primitive
47	6.3.118.7.3 When generated 6.3.118.7.4 Effect on receipt 6.3.118.8 MLME-DCS.response 6.3.118.8.1 Function 6.3.118.8.2 Semantics of the service primitive 6.3.118.8.3 When generated 6.3.118.8.4 Effect on receipt
48	6.3.118.9 MLME-DCS.confirm 6.3.118.9.1 Function 6.3.118.9.2 Semantics of the service primitive 6.3.118.9.3 When generated 6.3.118.9.4 Effect on receipt
49	9. Frame formats 9.2 MAC frame formats 9.2.3 General frame format 9.2.4 Frame fields 9.2.4.1 Frame Control field 9.2.4.1.8 More Data field 9.2.4.1.10 +HTC/Order subfield
50	9.2.4.6a CMMG Control field
52	9.3 Format of individual frame types 9.3.3 Management frames 9.3.3.6 Association Request frame format 9.3.3.7 Association Response frame format
53	9.3.3.8 Reassociation Request frame format 9.3.3.9 Reassociation Response frame format 9.3.3.10 Probe Request frame format
54	9.3.3.11 Probe Response frame format 9.3.4 Extension frames 9.3.4.2 DMG Beacon
56	9.4 Management and Extension frame body components 9.4.1 Fields that are not elements 9.4.1.7 Reason Code field 9.4.1.9 Status Code field 9.4.1.11 Action field
57	9.4.1.46 Band ID field 9.4.1.47a CMMG Parameters field 9.4.1.61 CMMG MIMO Control field
58	9.4.1.62 CMMG Compressed Beamforming Report field
61	9.4.1.63 CMMG Operating Mode field
63	9.4.2 Elements 9.4.2.1 General 9.4.2.132 Extended Schedule element
66	9.4.2.134a CMMG TSPEC element 9.4.2.147 Cluster Report element
67	9.4.2.217 CDMG Capabilities element 9.4.2.217.1 General 9.4.2.217.2 CDMG STA Capability Information field
68	9.4.2.217.3 CDMG AP or PCP Capability Information field
69	9.4.2.218 Dynamic Bandwidth Control element
70	9.4.2.219 CDMG Extended Schedule element
72	9.4.2.220 SSW Report element
73	9.4.2.221 Cluster Probe element
74	9.4.2.222 Extended Cluster Report element
75	9.4.2.223 Cluster Switch Announcement element 9.4.2.224 Enhanced Beam Tracking element
77	9.4.2.225 SPSH Report element
78	9.4.2.226 Clustering Interference Assessment element
79	9.4.2.227 CMMG Capabilities element 9.4.2.227.1 CMMG Capabilities element structure 9.4.2.227.2 CMMG Capabilities Info field
83	9.4.2.227.3 A-MPDU Parameters field 9.4.2.227.4 Supported CMMG MCS and NSS Set field
85	9.4.2.227.5 Transmit Beamforming Capabilities field
86	9.4.2.227.6 CMMG AP or PCP Capability Information field
87	9.4.2.228 CMMG Operation element
88	9.4.2.229 CMMG Operating Mode Notification element 9.4.2.230 CMMG Link Margin element 9.4.2.230.1 General
89	9.4.2.230.2 Activity field 9.4.2.231 CMMG Link Adaptation Acknowledgment element
90	9.5 Fields used in Management and Extension frame bodies and Control frames 9.5.1 Sector Sweep field 9.6 Action frame format details 9.6.8 Public Action details 9.6.8.1 Public Action frames
91	9.6.8.37 DCS Measurement Request frame format
92	9.6.8.38 DCS Measurement Response frame format
94	9.6.8.39 DCS Request frame format
95	9.6.8.40 DCS Response frame format 9.6.8.41 Extended Notification Period Request frame format
96	9.6.8.42 Extended Notification Period Response frame format 9.6.8.43 Extended Channel Splitting Request frame format
97	9.6.8.44 Extended Channel Splitting Response frame format
98	9.6.22 Unprotected DMG Action frame details 9.6.22.2 Announce frame format 9.6.22.3 BRP frame format 9.6.29 CDMG Action frame details 9.6.29.1 CDMG Action field
99	9.6.29.2 Notification Period Request frame format 9.6.29.3 Notification Period Response frame format
100	9.6.29.4 Channel Splitting Request frame format 9.6.29.5 Channel Splitting Response frame format
101	9.6.29.6 CDMG Allocation Request frame format 9.6.29.7 CDMG Allocation Response frame format
102	9.6.30 CMMG Action frame details 9.6.30.1 CMMG Action field 9.6.30.2 CMMG Compressed Beamforming frame format
103	9.6.30.3 Operating Mode Notification frame format
104	10. MAC sublayer functional description 10.2 MAC architecture 10.2.1 General
105	10.3 DCF 10.3.2 Procedures common to the DCF and EDCAF 10.3.2.6a CMMG RTS procedure 10.3.2.7 CTS and DMG CTS procedure 10.3.4 DCF access procedure 10.3.4.4 Recovery procedures and retransmit limits
106	10.7 Multirate support 10.7.1 Overview 10.7.7a Multirate support for CMMG STAs 10.7.7a.1 Usage of CMMG Control modulation class 10.7.7a.2 Rate selection rules for Control frames transmitted by CMMG STAs
107	10.7.7a.3 Rate selection for group addressed Data and Management frames transmitted by CMMG STAs 10.7.7a.4 Rate selection for individually addressed Data and Management frames transmitted by CMMG STAs
108	10.7.7a.5 Rate selection for BRP packets for CMMG STAs
109	10.7.9 Modulation classes 10.7.14 Rate selection constraints for CMMG STAs 10.7.14.1 Rx supported CMMG MCS and NSS set
110	10.7.14.2 Tx supported CMMG MCS and NSS set 10.9a CMMG Control field operation 10.12 A-MSDU operation
111	10.14 PPDU duration constraint 10.17 STBC operation 10.20 Group ID and partial AID in VHT and CMMG PPDUs
113	10.22 HCF 10.22.2 HCF contention based channel access (EDCA) 10.22.2.4 Obtaining an EDCA TXOP
114	10.22.2.7 Multiple frame transmission in an EDCA TXOP 10.22.2.12 EDCA channel access in a CMMG BSS
115	10.30 Sounding PPDUs
116	10.31 Link adaptation 10.31.4 Link adaptation using the CMMG Control field
118	10.31a CMMG beamforming
119	10.32 Transmit beamforming 10.32.1 HT steering matrix calculations 10.32.5 Explicit feedback beamforming for CMMG STAs
122	10.34a Null data packet (NDP) sounding for CMMG STAs 10.34a.1 NDP rules
123	10.34a.2 Transmission of a CMMG NDP 10.34a.3 Determination of CMMG NDP destination
124	10.34a.4 Determination of CMMG NDP source 10.36 DMG and CMMG channel access 10.36.1 General 10.36.2 Access periods within a beacon interval
125	10.36.3 ATI transmission rules
126	10.36.4 DTI transmission rules 10.36.5 Contention based access period (CBAP) transmission rules
127	10.36.6 Channel access in scheduled DTI 10.36.6.1 General 10.36.6.2 Service period (SP) allocation 10.36.6.6 DMG and CMMG protected period 10.36.6.6.1 Introduction
128	10.36.6.6.2 DMG and CMMG protected period establishment and maintenance
129	10.36.6.6.2a CDMG protected period establishment and maintenance
131	10.36.6.6.2b Dynamic and static bandwidth operation during CMMG protected period 10.36.6.6.3 NAV update in DMG and CMMG protected period 10.36.6.6.4 Interference report
132	10.36.7 Dynamic allocation of service period 10.36.7.3 Grant period (GP) 10.36.8 Dynamic truncation of service period 10.36.8.1 DMG dynamic truncation of service period
133	10.36.8.2 CDMG dynamic truncation of service period 10.36.10 Updating multiple NAVs
135	10.36.11 Opportunistic transmission in alternative channel for CDMG STAs
137	10.37 DMG and CMMG AP or PCP clustering 10.37.1 General
138	10.37.3 Cluster maintenance 10.37.3.4 Centralized AP or PCP cluster MAC requirements 10.37.5 Decentralized AP or PCP cluster request
139	10.37a CDMG AP or PCP clustering 10.37a.1 General 10.37a.2 Cluster formation 10.37a.2.1 Decentralized CDMG AP or PCP cluster formation
143	10.37a.2.2 Centralized CDMG AP or PCP cluster formation
145	10.37a.3 Cluster maintenance 10.37a.3.1 General cluster maintenance 10.37a.3.2 Decentralized CDMG AP or PCP cluster maintenance
146	10.37a.3.3 Cluster coordination 10.37a.3.4 Centralized CDMG AP or PCP cluster maintenance
147	10.37a.3.5 Centralized CDMG AP or PCP cluster MAC requirements 10.37a.4 Cluster report and rescheduling
148	10.37a.5 Decentralized AP or PCP cluster request 10.37a.6 Spatial sharing in a CDMG AP or PCP cluster
150	10.38 DMG beamforming 10.38.1 General 10.38.9 CDMG enhanced beam tracking
153	10.39a Link adaptation using the CMMG link measurement 10.39a.1 General 10.39a.2 CMMG TPC
154	10.39a.3 CMMG fast link adaptation
155	10.60 DBC mechanism for CDMG STAs 10.60.1 General 10.60.2 CDMG channel access 10.60.2.1 CDMG BSS operating on a 2.16 GHz channel
156	10.60.2.2 CDMG BSS operating on a 1.08 GHz channel
158	10.60.2.3 Synchronization of CDMG infrastructure BSS or PBSSs on the adjacent 1.08 GHz channels within a 2.16 GHz channel
161	10.60.3 Channel splitting of a 2.16 GHz channel
162	10.60.4 Channel expansion of a 1.08 GHz channel
163	10.60.5 Backward compatibility and interoperation
167	11. MLME 11.1 Synchronization 11.1.4 Acquiring synchronization, scanning 11.1.4.3 Active scanning 11.1.4.3.6 PCP selection in a PBSS
168	11.2 Power management 11.2.3 Power management in a non-DMG infrastructure network 11.2.3.21 CMMG TXOP power save
169	11.2.7 Power management in a PBSS and DMG infrastructure BSS 11.2.7.3 PCP power management mode 11.2.7.3.3 PCP operation with a wakeup schedule 11.32 Spatial sharing and interference mitigation for DMG STAs 11.32.1 General
170	11.49 DCS procedure 11.49.1 General
172	11.49.2 Assessing current channel condition 11.49.3 Requesting measurements for new operating channel 11.49.4 Reporting measurements 11.49.5 Requesting existing BSS to migrate to a new channel
173	11.49.6 Networking on the target channel 11.50 CMMG BSS operation 11.50.1 Basic CMMG BSS functionality
174	11.50.2 Channel selection methods for a CMMG BSS 11.50.3 Scanning requirements for CMMG STAs 11.50.4 Channel switching methods for a CMMG BSS
176	11.50.5 NAV assertion in a CMMG BSS 11.50.6 CMMG STAs antenna indication
177	11.50.7 BSS basic CMMG MCS and NSS set operation
178	12. Security 12.2 Framework 12.2.2 Security methods
179	24. China directional multi-gigabit (CDMG) PHY specification 24.1 CDMG PHY introduction 24.1.1 Scope 24.1.2 CDMG PHY functions 24.1.2.1 General 24.1.2.2 PHY management entity (PLME) 24.1.2.3 Service specification method 24.2 CDMG PHY service interface 24.2.1 Introduction
180	24.2.2 TXVECTOR and RXVECTOR parameters
182	24.2.3 TXSTATUS parameters 24.3 Common parameters 24.3.1 Channelization
183	24.3.2 Transmit mask 24.3.3 Common requirements 24.3.3.1 Introduction 24.3.3.2 Center frequency tolerance 24.3.3.2.1 General 24.3.3.2.2 Center frequency convergence 24.3.3.3 Symbol clock tolerance
184	24.3.3.4 Transmit center frequency leakage 24.3.3.5 Transmit rampup and rampdown 24.3.3.6 Antenna setting 24.3.3.7 Maximum input requirement 24.3.3.8 Receive sensitivity
185	24.3.4 Timing-related parameters
186	24.3.5 Mathematical conventions in the signal description 24.3.5.1 General 24.3.5.2 Windowing function 24.3.6 Common preamble 24.3.6.1 General 24.3.6.2 Short Training field
187	24.3.6.3 Channel Estimation field 24.3.7 HCS calculation for headers of CDMG control mode and CDMG SC mode
188	24.3.8 Common LDPC parity matrices 24.3.9 Scrambler 24.3.10 Received channel power indicator (RCPI) measurement 24.4 CDMG control mode 24.4.1 Introduction 24.4.2 PPDU format 24.4.3 Transmission 24.4.3.1 Preamble 24.4.3.1.1 General
189	24.4.3.1.2 Short Training field 24.4.3.1.3 Channel Estimation field 24.4.3.2 Header 24.4.3.2.1 General
190	24.4.3.2.2 Generation of HCS bits 24.4.3.2.3 Header encoding and modulation 24.4.3.3 Data field 24.4.4 Performance requirements 24.4.4.1 Transmit requirements 24.4.4.1.1 Introduction 24.4.4.1.2 Transmit EVM
191	24.4.4.2 Receive requirements 24.4.4.2.1 Introduction 24.4.4.2.2 CCA 24.5 CDMG SC mode 24.5.1 Introduction 24.5.2 PPDU format
192	24.5.3 Transmission 24.5.3.1 Header 24.5.3.1.1 General
193	24.5.3.1.2 Modulation and coding scheme
194	24.5.3.1.3 Generation of the HCS bits 24.5.3.1.4 Header encoding and modulation 24.5.3.2 The Data field 24.5.3.2.1 General 24.5.3.2.2 Scrambler 24.5.3.2.3 Encoding 24.5.3.2.4 Modulation mapping
196	24.5.3.2.5 Symbol blocking and guard insertion 24.5.4 Performance requirements 24.5.4.1 Transmit requirements 24.5.4.1.1 Transmit EVM
197	24.5.4.1.2 Time of Departure accuracy 24.5.4.2 Receive requirements 24.5.4.2.1 Introduction 24.5.4.2.2 CCA
198	24.6 CDMG low-power SC mode 24.6.1 Introduction 24.6.2 Transmission 24.6.2.1 Preamble 24.6.2.2 Header 24.6.2.2.1 General 24.6.2.2.2 Header encoding and modulation 24.6.2.3 Data field 24.7 PHY transmit procedure
199	24.8 PHY receive procedure 24.9 Beamforming 24.9.1 Beamforming concept 24.9.2 Beamforming frame format 24.9.2.1 Sector-level sweep
201	24.9.2.2 Beam refinement 24.9.2.2.1 General 24.9.2.2.2 BRP packet structure
202	24.9.2.2.3 BRP packet header fields 24.9.2.2.4 BRP packet duration 24.9.2.2.5 AGC field 24.9.2.2.6 TRN field 24.9.2.2.7 Channel measurement
203	24.10 CDMG PLME 24.10.1 PLME SAP sublayer management primitives 24.10.2 CDMG PHY MIB 24.10.3 TXTIME calculation
204	24.10.4 PHY characteristics
205	25. China millimeter-wave multi-gigabit (CMMG) PHY specification 25.1 Introduction 25.1.1 Introduction to the CMMG PHY 25.1.2 Scope
206	25.1.3 CMMG PHY functions 25.1.3.1 General 25.1.3.2 PHY management entity (PLME) 25.1.3.3 Service specification method 25.1.3.4 PPDU formats 25.2 CMMG PHY service interface 25.2.1 Introduction
207	25.2.2 TXVECTOR and RXVECTOR parameters
210	25.3 Common parameters 25.3.1 Introduction 25.3.2 Common requirements 25.3.2.1 Introduction 25.3.2.2 Transmit RF delay 25.3.2.3 Center frequency tolerance 25.3.2.3.1 General 25.3.2.3.2 Center frequency convergence 25.3.2.3.3 Symbol clock tolerance 25.3.2.3.4 Transmit rampup and rampdown 25.3.2.3.5 Maximum input requirement
211	25.3.2.3.6 Receive sensitivity 25.3.3 Time-related parameters
213	25.3.4 Mathematical conventions in the signal description 25.3.4.1 Notation 25.3.4.2 Subcarrier indices in use 25.3.4.3 Transmitted signal
215	25.3.4.4 Definition of tone rotation for OFDM mode transmission
216	25.3.4.5 The windowing function 25.3.5 CMMG PHY preamble 25.3.5.1 General 25.3.5.2 CMMG Short Training field 25.3.5.2.1 STF of control mode
217	25.3.5.2.2 STF of SC and OFDM mode 25.3.5.3 CMMG Channel Estimation field 25.3.5.3.1 CEF of control mode 25.3.5.3.2 CEF of SC mode
218	25.3.5.3.3 CEF of OFDM mode
219	25.3.6 CRC calculation
220	25.3.7 Scrambler
221	25.3.8 Common LDPC parity matrices 25.3.8.1 Introduction 25.3.8.2 General
223	25.3.9 CMMG SIG 25.3.9.1 General
226	25.3.9.2 Encoding of SIG 25.3.10 Duplication transmission on a 1080 MHz channel
227	25.3.11 hFilt definition 25.3.12 Encoding of Data field
228	25.3.13 Received channel power indicator (RCPI) measurement
229	25.4 CMMG control mode 25.4.1 Introduction 25.4.2 PPDU format 25.4.3 CMMG preamble transmission 25.4.4 CMMG control mode SIG transmission 25.4.4.1 General 25.4.4.2 Generation of CRC bits 25.4.4.3 Scrambler 25.4.4.4 Encoding
230	25.4.4.5 Modulation 25.4.4.6 Spreading 25.4.5 CMMG control mode Data field 25.4.5.1 General 25.4.5.2 Scrambler
231	25.4.5.3 Encoder 25.4.5.4 Modulation 25.4.5.5 Spreading 25.4.6 CMMG control mode performance requirements 25.4.6.1 Transmit requirements 25.4.6.1.1 Introduction 25.4.6.1.2 Transmit EVM
232	25.4.6.2 Receive requirements 25.4.6.2.1 Introduction 25.4.6.2.2 CCA 25.5 CMMG SC mode 25.5.1 Introduction 25.5.2 Transmitter block diagram
233	25.5.3 Overview of the PPDU encoding process 25.5.3.1 General 25.5.3.2 Construction of CMMG SC mode SIG 25.5.3.3 Construction of CMMG SC mode PPDUs 25.5.4 CMMG SC mode PPDU format
234	25.5.5 CMMG SC mode SIG transmission 25.5.5.1 SIG field 25.5.5.2 Generation of the CRC bits of SIG 25.5.5.3 Scrambler 25.5.5.4 Encoding and modulations 25.5.5.4.1 General 25.5.5.4.2 Encoding 25.5.5.4.3 Modulation 25.5.5.4.4 Duplication
235	25.5.5.4.5 Symbol blocking, CSD, and GI insertion 25.5.6 Data field transmission 25.5.6.1 General 25.5.6.2 Scrambler 25.5.6.3 Encoding 25.5.6.4 Symbol block padding zeros
236	25.5.6.5 Stream parser
237	25.5.6.6 Constellation mapping
238	25.5.6.7 Spatial expansion
240	25.5.6.8 Duplication transmission 25.5.7 Performance requirements 25.5.7.1 Transmit requirements 25.5.7.1.1 Introduction 25.5.7.1.2 Transmit EVM
241	25.5.7.1.3 Time of Departure accuracy
242	25.5.7.2 Receive requirements 25.5.7.2.1 Introduction 25.5.7.2.2 CCA 25.6 CMMG OFDM mode 25.6.1 Introduction 25.6.2 CMMG OFDM mode PPDU format 25.6.3 Transmission block diagram
243	25.6.4 Overview of CMMG OFDM mode PPDU encoding process 25.6.4.1 General 25.6.4.2 Construction of CMMG OFDM mode SIG
244	25.6.4.3 Construction of CMMG OFDM mode PPDU 25.6.4.4 Construction of OSTF 25.6.4.5 Construction of OCEF
245	25.6.5 CMMG OFDM mode SIG fields 25.6.5.1 SIG fields 25.6.5.2 Modulation 25.6.5.3 Duplication 25.6.5.4 Symbol blocking, CSD, and GI insertion 25.6.5.5 Sample rate change
246	25.6.6 OSTF definition 25.6.7 OCEF definition
249	25.6.8 Data fields 25.6.8.1 General 25.6.8.2 Scrambler 25.6.8.3 Encoding 25.6.8.4 OFDM symbol padding zeros
250	25.6.8.5 Stream parser 25.6.8.6 Subcarrier modulation mapping
253	25.6.8.7 Tone mapping 25.6.8.8 Space-time block coding
254	25.6.8.9 Pilot subcarriers 25.6.8.10 Cyclic shift diversity (CSD) for OFDM mode data fields transmission
255	25.6.8.11 OFDM modulation
256	25.6.8.12 Duplication transmission
257	25.6.8.13 Beamforming 25.6.8.13.1 General 25.6.8.13.2 Compressed Beamforming feedback matrix
258	25.6.8.14 CMMG preamble format for sounding PPDU 25.6.8.14.1 General 25.6.8.14.2 Sounding with an NDP 25.6.8.14.3 Sounding PPDU for channel quality assessment
259	25.6.9 Performance requirements 25.6.9.1 Transmit requirements 25.6.9.1.1 Introduction 25.6.9.1.2 Transmit EVM
260	25.6.9.2 TX flatness 25.6.9.2.1 TX flatness for 540 MHz channel
261	25.6.9.2.2 TX flatness for 1080 MHz channel 25.6.9.2.3 Time of Departure accuracy 25.6.9.3 Receive requirements 25.6.9.3.1 Introduction 25.6.9.3.2 CCA 25.7 Analog beamforming PHY frame format 25.7.1 TX sector sweep 25.7.2 Beam refinement 25.7.2.1 General
262	25.7.2.2 BRP packet structure 25.7.2.3 BRP packet SIG fields 25.7.2.4 Beam refinement AGC field
263	25.7.2.5 Beam refinement TRN-R field 25.7.2.6 Beam refinement TRN-T field 25.7.2.7 Channel measurement 25.7.2.8 BRP resampling in an OFDM mode packet
264	25.8 ZCZ sequence
268	25.9 Regulatory requirements 25.10 Channelization
269	25.11 Transmit spectrum mask 25.12 PHY transmit procedure 25.12.1 PHY transmit procedure for a CMMG SC mode transmission
270	25.12.2 PHY transmit procedure for a CMMG OFDM mode transmission
273	25.13 Receive procedure 25.13.1 SC mode receive procedure
274	25.14 CMMG PLME 25.14.1 PLME SAP sublayer management primitive 25.14.2 PHY MIB
275	25.14.3 TXTIME calculation
276	25.14.4 PHY characteristics 25.15 Parameters for CMMG MCSs 25.15.1 General
277	25.15.2 Parameters for CMMG MCSs with SC mode transmission
280	25.15.3 Parameters for CMMG MCSs with OFDM mode transmission
284	Annex B (normative) Protocol Implementation Conformance Statement (PICS) proforma B.2 Abbreviations and special symbols B.2.2 General abbreviations for Item and Support columns B.4 PICS proforma B.4.3 IUT configuration B.4.30 CDMG features B.4.30.1 CDMG MAC features
285	B.4.30.2 CDMG PHY features
286	B.4.31 CMMG features B.4.31.1 CMMG PHY features
287	Annex C (normative) ASN.1 encoding of the MAC and PHY MIB C.3 MIB detail
301	Annex E (normative) Country elements and operating classes E.1 Country information and operating classes
302	Annex W (informative) Informative procedures for CDMG STAs W.1 Selection of candidate SPs for spatial sharing W.2 N-phase beamforming codebook for CDMG STAs W.2.1 General
303	W.2.2 1-D (dimensional) antenna array
304	W.2.3 2-D (dimensional) antenna array
305	W.3 Beam tracking and switching for enhanced beam tracking mechanism
306	Back cover

Published By	Publication Date	Number of Pages
IEEE	2018	306


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Standard Title	IEEE 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 to Support Chinese Millimeter Wave Frequency Bands(60 GHz and 45 GHz)
Published Code	IEEE
Publication Date	2018
Pages Count	306

IEEE 802.11aj 2018

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