IEEE 802.15.3-2023

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IEEE Standard for Wireless Multimedia Networks (Published)

Published By	Publication Date	Number of Pages
IEEE	2023

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Description

Revision Standard – Active. The protocol and compatible interconnection of data and multimedia communication equipment via 2.4 GHz, 60 GHz, and 300 GHz radio transmissions in a Wireless Personal Area Network (WPAN) using low-power and multiple modulation formats to support scalable data rates are defined in this standard. The Medium Access Control (MAC) sublayer protocol supports both isochronous and asynchronous data types.

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std 802.15.3-2023 Front cover
2	Title page
4	Important Notices and Disclaimers Concerning IEEE Standards Documents
8	Participants
10	Introduction
13	Contents
34	1. Overview 1.1 Scope 1.2 Purpose 1.3 Word usage
35	2. Normative references
36	3. Definitions, acronyms, and abbreviations 3.1 Definitions
37	3.2 Acronyms and abbreviations
43	4. General description 4.1 Format conventions 4.1.1 Numbers 4.1.2 Strings 4.1.3 MAC frame format
45	4.1.4 Reserved fields and values 4.2 Network types 4.3 What is a piconet? 4.4 Components of an IEEE 802.15.3 piconet
46	4.5 What is a pairnet? 4.6 Components of an IEEE 802.15.3 pairnet 4.7 MAC functionality 4.7.1 Overview
47	4.7.2 Coordination 4.7.2.1 General 4.7.2.2 Starting a piconet 4.7.2.3 Starting a pairnet 4.7.2.4 Handing over control of the piconet 4.7.2.5 Creating a child piconet
48	4.7.2.6 Creating a neighbor piconet 4.7.3 Ending a piconet 4.7.4 Ending a piconet with a dependent piconet involved
49	4.7.5 Ending a pairnet 4.7.6 Association and disassociation in a piconet 4.7.7 Association and disassociation in a pairnet 4.7.8 Security overview
50	4.7.9 IEEE 802.15.3 superframe 4.7.9.1 IEEE 802.15.3 superframe for piconets
51	4.7.9.2 IEEE 802.15.3 superframe for pairnets
52	4.7.10 Channel time management 4.7.10.1 Channel time management in a piconet
53	4.7.10.2 Channel time management in a pairnet 4.7.11 Data communications between DEVs in a piconet 4.7.12 Information discovery in the piconet
54	4.7.13 Dynamic channel selection in the piconet 4.7.14 Power management
55	4.7.15 Controlling transmit power in the piconet 4.7.16 Superframe structure using quasi-omni mode in millimeter wave (mmWave) piconets
56	4.7.17 Frame aggregation 4.7.18 Beam forming in the piconet 4.7.19 Channel probing in the piconet 4.7.20 Unequal error protection (UEP) in mmWave piconets 4.8 Characteristics of the 2.4 GHz PHY 4.8.1 General characteristics
57	4.8.2 Coexistence and interoperability 4.9 Characteristics of the mmWave PHY 4.9.1 mmWave PHY characteristics
58	4.9.2 Piconets using mmWave PHY modes
59	4.10 Characteristics of HRCP PHY 4.10.1 HRCP PHY characteristics 4.10.2 Pairnet using HRCP PHY
60	4.11 Characteristics of THz PHY 4.11.1 THz PHY characteristics 4.11.2 Pairnet using THz PHY
61	4.12 Conventions 4.13 Concept of primitives
63	5. Layer management 5.1 Overview of management model
64	5.2 Generic management primitives 5.2.1 Overview
65	5.2.2 MLME-GET.request 5.2.3 MLME-GET.confirm 5.2.4 MLME-SET.request
66	5.2.5 MLME-SET.confirm 5.3 MLME SAP interface 5.3.1 Overview
67	5.3.2 Resetting the MAC/MLME 5.3.2.1 Overview
68	5.3.2.2 MLME-RESET.request 5.3.2.3 MLME-RESET.confirm 5.3.3 Scanning for piconets and pairnets 5.3.3.1 Overview
72	5.3.3.2 MLME-SCAN.request 5.3.3.3 MLME-SCAN.confirm 5.3.3.4 MLME-SCAN.indication
73	5.3.4 Starting a piconet or pairnet 5.3.4.1 Overview
74	5.3.4.2 MLME-START.request 5.3.4.3 MLME-START.confirm
75	5.3.5 Stopping a piconet or a pairnet 5.3.5.1 Overview
76	5.3.5.2 MLME-STOP.request 5.3.5.3 MLME-STOP.confirm 5.3.6 Associating with a piconet or pairnet 5.3.6.1 Overview
78	5.3.6.2 MLME-ASSOCIATE.request 5.3.6.3 MLME-ASSOCIATE.confirm 5.3.6.4 MLME-ASSOCIATE.indication 5.3.6.5 MLME-ASSOCIATE.response
79	5.3.7 Disassociation from a piconet or pairnet 5.3.7.1 Overview 5.3.7.2 MLME-DISASSOCIATE.request
80	5.3.7.3 MLME-DISASSOCIATE.confirm 5.3.7.4 MLME-DISASSOCIATE.indication 5.3.8 Security management 5.3.8.1 Overview
82	5.3.8.2 MLME-MEMBERSHIP-UPDATE.request 5.3.8.3 MLME-MEMBERSHIP-UPDATE.confirm
83	5.3.8.4 MLME-SECURITY-ERROR.indication 5.3.8.5 MLME-SECURITY-MESSAGE.request 5.3.8.6 MLME-SECURITY-MESSAGE.confirm 5.3.8.7 MLME-SECURITY-MESSAGE.indication
84	5.3.9 PNC handover 5.3.9.1 Overview 5.3.9.2 MLME-PNC-HANDOVER.indication 5.3.9.3 MLME-PNC-HANDOVER.response 5.3.9.4 MLME-NEW-PNC.indication
85	5.3.10 Requesting DEV information from the PNC 5.3.10.1 Overview 5.3.10.2 MLME-DEV-INFO.request
86	5.3.10.3 MLME-DEV-INFO.confirm 5.3.10.4 MLME-DEV-INFO.indication 5.3.11 Security information retrieval 5.3.11.1 Overview
87	5.3.11.2 MLME-SECURITY-INFO.request 5.3.11.3 MLME-SECURITY-INFO.confirm
88	5.3.11.4 MLME-SECURITY-INFO.indication 5.3.11.5 MLME-SECURITY-INFO.response 5.3.12 Application specific data management 5.3.12.1 Overview
89	5.3.12.2 MLME-APPLICATION-SPECIFIC.request
90	5.3.12.3 MLME-APPLICATION-SPECIFIC.confirm 5.3.12.4 MLME-APPLICATION-SPECIFIC.indication 5.3.13 Piconet services management 5.3.13.1 Overview
91	5.3.13.2 MLME-ANNOUNCE-SERVICE.request 5.3.13.3 MLME-ANNOUNCE-SERVICE.confirm
92	5.3.13.4 MLME-PICONET-SERVICES.request 5.3.13.5 MLME-PICONET-SERVICES.confirm 5.3.13.6 MLME-PICONET-SERVICES.indication 5.3.14 Stream management 5.3.14.1 Overview
94	5.3.14.2 MLME-CREATE-STREAM.request
95	5.3.14.3 MLME-CREATE-STREAM.confirm 5.3.14.4 MLME-CREATE-STREAM.indication 5.3.14.5 MLME-MODIFY-STREAM.request
96	5.3.14.6 MLME-MODIFY-STREAM.confirm 5.3.14.7 MLME-TERMINATE-STREAM.request 5.3.14.8 MLME-TERMINATE-STREAM.confirm 5.3.14.9 MLME-TERMINATE-STREAM.indication
97	5.3.15 Piconet parameter management 5.3.15.1 Overview 5.3.15.2 MLME-BSID-CHANGE.request 5.3.15.3 MLME-BSID-CHANGE.confirm
98	5.3.15.4 MLME-PICONET-PARM-CHANGE.indication 5.3.16 Power management 5.3.16.1 Overview
100	5.3.16.2 MLME-PS-SET-INFORMATION.request 5.3.16.3 MLME-PS-SET-INFORMATION.confirm 5.3.16.4 MLME-SPS-CONFIGURE.request
101	5.3.16.5 MLME-SPS-CONFIGURE.confirm 5.3.16.6 MLME-PM-MODE-CHANGE.request 5.3.16.7 MLME-PM-MODE-CHANGE.confirm 5.3.16.8 MLME-PM-MODE-CHANGE.indication
102	5.3.16.9 MLME-MONITOR-PM-MODE.request 5.3.16.10 MLME-MONITOR-PM-MODE.confirm 5.3.16.11 MLME-MONITOR-PM-MODE.indication
103	5.3.17 Multicast operations 5.3.17.1 Overview
104	5.3.17.2 MLME-MULTICAST-CONFIGURATION.request 5.3.17.3 MLME-MULTICAST-CONFIGURATION.confirm 5.3.17.4 MLME-MULTICAST-RX-SETUP.request
105	5.3.17.5 MLME-MULTICAST-RX-SETUP.confirm 5.3.18 Timing synchronization 5.3.18.1 Overview 5.3.18.2 MLME-BEACON-EVENT.request 5.3.18.3 MLME-BEACON-EVENT.confirm
106	5.3.18.4 MLME-BEACON-EVENT.indication 5.3.19 Transmit switched diversity (TSD) 5.3.19.1 Overview
107	5.3.19.2 MLME-TXDIV.request 5.3.19.3 MLME-TXDIV.confirm 5.4 MAC management 5.4.1 General 5.4.2 MAC PIB PNC and PRC group
109	5.4.3 MAC PIB characteristic group
111	5.5 MAC SAP 5.5.1 Overview
114	5.5.2 MAC-ASYNC-DATA.request 5.5.3 MAC-ASYNC-DATA.confirm
115	5.5.4 MAC-ASYNC-DATA.indication 5.5.5 MAC-ISOCH-DATA.request 5.5.6 MAC-ISOCH-DATA.confirm
116	5.5.7 MAC-ISOCH-DATA.indication 5.5.7 MAC-HRCP-DATA.request 5.5.8 MAC-HRCP-DATA.confirm
117	5.5.9 MAC-HRCP-DATA.indication 5.5.10 MAC-HRCP-MUL-DATA.request 5.5.11 MAC-HRCP-MUL-DATA.confirm
118	5.5.12 MAC-HRCP-MUL-DATA.indication
119	6. MAC frame formats 6.1 Frame format conventions 6.2 General frame format 6.2.1 Overview
121	6.2.2 Frame Control field 6.2.2.1 Overview 6.2.2.2 Protocol Version field
122	6.2.2.3 Frame Type field
123	6.2.2.4 SEC field 6.2.2.5 ACK Policy field, Imp-ACK Request field, and Blk-ACK field for piconet 6.2.2.6 ACK Policy field for pairnet
124	6.2.2.7 Retry field 6.2.2.8 More Data field 6.2.2.9 Imp-ACK Negative Acknowledgment (NAK) field 6.2.2.10 CTA Relinquish field 6.2.2.11 Logical Channel 6.2.3 Piconet ID (PNID) field
125	6.2.4 PairnetID field 6.2.5 SrcID and DestID fields for piconet 6.2.6 SrcID and DestID fields for pairnet
126	6.2.7 Fragmentation Control field for piconet 6.2.7.1 Overview 6.2.7.2 MSDU Number field 6.2.7.3 Fragment Number field 6.2.7.4 Last Fragment Number field 6.2.8 Stream Index field
127	6.2.9 MAC header validation 6.2.10 MAC Frame Body field 6.2.10.1 Frame Payload field 6.2.10.2 Secure session ID (SECID) field
128	6.2.10.3 Secure Frame Counter (SFC) field 6.2.10.4 Secure Payload field 6.2.10.5 Integrity Code field 6.2.10.6 Frame Check Sequence (FCS) field
129	6.2.10.7 MAC frame body for pairnet 6.2.10.8 Security header for pairnet 6.2.10.9 Secure MAC frame body for pairnet 6.2.11 SC and HSI aggregated frame format for piconet 6.2.11.1 Overview 6.2.11.2 Standard aggregation format 6.2.11.2.1 Non-secure standard aggregation format
132	6.2.11.2.2 Secure standard aggregation format 6.2.11.3 Low-latency aggregation formats 6.2.11.3.1 Non-secure low-latency aggregation format
135	6.2.11.3.2 Secure low-latency aggregation format
136	6.2.12 AV aggregated frame format for piconet 6.2.12.1 Overview 6.2.12.2 Extended MAC header format 6.2.12.2.1 Overview
137	6.2.12.2.2 Extended Control Header field
138	6.2.12.2.3 MAC Extension Header field
139	6.2.12.2.4 Security Header field 6.2.12.2.5 Video Header field
140	6.2.12.3 Subframe format
142	6.2.12.4 AV aggregated 6.2.12.5 Regular
143	6.2.12.6 Directional ACK 6.2.13 TX and ACK Information field for pairnets
144	6.3 Format of individual frame types 6.3.1 Beacon frame 6.3.1.1 Non-secure Beacon frame for piconets
146	6.3.1.2 Non-secure Beacon frame for pairnets
148	6.3.1.3 Secure Beacon frame for piconets
149	6.3.1.4 Secure Beacon frame for pairnets 6.3.2 Acknowledgment frames for piconets 6.3.2.1 Imm-ACK frame
150	6.3.2.2 Delayed ACK (Dly-ACK) frame
151	6.3.3 Command frame for piconets 6.3.3.1 General 6.3.3.2 Non-secure Command frame
152	6.3.3.3 Secure Command frame
153	6.3.4 Command frame for pairnets 6.3.4.1 Non-secure Command frame
154	6.3.4.2 Secure command frame
155	6.3.5 Data frame for piconets 6.3.5.1 Non-secure Data frame 6.3.5.2 Secure Data frame
156	6.3.6 Data frame for pairnets 6.3.6.1 Non-Secure Pairnet Aggregated Data frame
158	6.3.6.2 Secure Pairnet Aggregated Data frame
159	6.3.7 Multi-protocol Data frame for piconets 6.3.7.1 Non-secure Multi-protocol Data frame
160	6.3.7.2 Secure Multi-protocol Data frame
161	6.3.8 Multi-protocol Data frame for pairnets 6.3.8.1 Non-Secure Pairnet Aggregated Multi-protocol Data frame 6.3.8.2 Secure Pairnet Aggregated Multi-protocol Data frame
163	6.3.9 Synchronization frame for piconets 6.4 Information elements (IEs) 6.4.1 Overview
166	6.4.2 CTA IE for piconet
167	6.4.3 BSID IE for piconet 6.4.4 Parent Piconet IE
168	6.4.5 DEV Association IE for piconet 6.4.6 PNC Shutdown IE for piconet
169	6.4.7 Piconet Parameter Change IE
170	6.4.8 AS IE for piconet 6.4.9 Pending channel time map (PCTM) IE for piconet
171	6.4.10 PNC Handover IE for piconet 6.4.11 CTA Status IE for piconet
172	6.4.12 Capability IE for piconet
178	6.4.13 PRC Capability IE for pairnet
183	6.4.14 PRDEV Capability IE for pairnet
184	6.4.15 Pairnet Operation Parameters IE
186	6.4.16 THz PRC Capability IE for pairnet
190	6.4.17 THz PRDEV Capability IE for pairnet 6.4.18 THz Pairnet Operation Parameter IE
192	6.4.19 Transmit Power Parameters IE
193	6.4.20 PS Status IE for piconet 6.4.21 CWB IE for piconet
194	6.4.22 Overlapping PNID IE for piconet 6.4.23 Piconet Services IE
195	6.4.24 Vendor Defined IE 6.4.25 Group ID IE for piconet
196	6.4.26 Stream Renew IE for piconet 6.4.27 Next PNC IE for piconet 6.4.28 Piconet Channel Status IE
197	6.4.29 Synchronization IE for piconet
199	6.4.30 TSD IE for piconet
200	6.4.31 UEP Specific IE for piconet 6.4.32 IFS IE for piconet
201	6.4.33 CTA Relinquish Duration IE for piconet 6.4.34 Feedback IE for piconet
203	6.4.35 Mapping IE for piconet
204	6.4.36 BST Clustering IE for piconet 6.4.37 PET Clustering IE for piconet
205	6.4.38 Beam PET IE for piconet
206	6.4.39 HRS Beam PET IE for piconet
207	6.4.40 PET Amplitude IE for piconet 6.4.41 PET Phase IE for piconet 6.4.42 Sync Frame Frequency IE for piconet
208	6.4.43 Directional Peer IE for piconet
209	6.4.44 MIMO Information IE for pairnet
210	6.4.45 Higher Layer Protocol Information IE for pairnet 6.5 MAC commands 6.5.1 Overview
214	6.5.2 Association and disassociation commands 6.5.2.1 General 6.5.2.2 Association Request command
216	6.5.2.3 Association Response command
217	6.5.2.4 Disassociation Request command 6.5.3 Security commands 6.5.3.1 General 6.5.3.2 Request Key command 6.5.3.3 Request Key Response command
218	6.5.3.4 Distribute Key Request command 6.5.3.5 Distribute Key Response command
219	6.5.4 PNC handover commands for piconet 6.5.4.1 General 6.5.4.2 PNC Handover Request command 6.5.4.3 PNC Handover Response command
220	6.5.4.4 PNC Handover Information command 6.5.5 Information request commands 6.5.5.1 General 6.5.5.2 PNC Information Request command for piconet
221	6.5.5.3 PNC Information command for piconet
222	6.5.5.4 Security Information Request command 6.5.5.5 Security Information command
223	6.5.5.6 Probe Request command
225	6.5.5.7 Probe Response command
227	6.5.6 Information announcement commands for piconet 6.5.6.1 Piconet Services command
228	6.5.6.2 Announce command for piconet
229	6.5.6.3 Announce Response command for piconet
230	6.5.7 Channel time allocation request, modification, and termination commands for piconets 6.5.7.1 General 6.5.7.2 Channel Time Request command
233	6.5.7.3 Channel Time Response command
234	6.5.8 Channel status commands for piconets 6.5.8.1 General 6.5.8.2 Channel Status Request command 6.5.8.3 Channel status response
235	6.5.8.4 Remote Scan Request command 6.5.8.5 Remote Scan Response command
236	6.5.8.6 Transmit Power Change command
237	6.5.9 Power management commands for piconets 6.5.9.1 General 6.5.9.2 PS Set Information Request command 6.5.9.3 PS Set Information Response command
238	6.5.9.4 SPS Configuration Request command
239	6.5.9.5 SPS Configuration Response command
240	6.5.9.6 PM Mode Change command 6.5.9.7 PM Mode Change Response command
241	6.5.10 Special commands 6.5.10.1 Security Message command 6.5.10.2 Vendor Defined command 6.5.10.3 AS IE Request command for piconets
242	6.5.10.4 AS IE Response command for piconets 6.5.10.5 Array Training command for piconets
243	6.5.10.6 Array Training Feedback for piconets
244	6.5.11 Piconet Multicast configuration commands 6.5.11.1 Multicast Configuration Request command
245	6.5.11.2 Multicast Configuration Response command
246	7. MAC functional description 7.1 Introduction
247	7.2 Starting, maintaining, and stopping piconets 7.2.1 General 7.2.2 Scanning through channels
248	7.2.3 Starting a piconet
249	7.2.4 PNC handover
253	7.2.5 Preliminary handover
254	7.2.6 Next PNC
255	7.2.7 Dependent PNC handover
258	7.2.8 Child piconet
260	7.2.9 Neighbor piconet
262	7.2.10 Stopping piconet operations 7.2.10.1 General 7.2.10.2 Stopping an independent or parent piconet
263	7.2.10.3 Parent PNC stopping a dependent piconet 7.2.10.4 Dependent PNC termination of a dependent piconet 7.2.11 Non-PNC-capable DEVs 7.3 Starting and stopping pairnets 7.3.1 Scanning through channels
264	7.3.2 Starting a pairnet 7.3.3 Stopping a pairnet 7.3.4 Non-PRC-capable devices 7.4 Association and disassociation with a piconet 7.4.1 General
265	7.4.2 Association
267	7.4.3 Piconet services
269	7.4.4 Broadcasting piconet information 7.4.5 Disassociation
271	7.5 Association and disassociation with a pairnet 7.5.1 Association
273	7.5.2 Disassociation
274	7.5.3 Higher layer protocol setup during association procedure for a pairnet 7.6 Channel access 7.6.1 General
275	7.6.2 Interframe space (IFS)
276	7.6.3 Carrier sense multiple access with collision avoidance (CSMA/CA) in piconets
277	7.6.4 Channel time allocation period channel access in piconets 7.6.4.1 General 7.6.4.2 Channel time allocations (CTAs)
279	7.6.4.3 Channel time allocation (CTA) and channel time usage
280	7.6.4.4 Management CTAs
281	7.6.4.5 Slotted aloha access 7.6.4.6 Allocation of MCTAs
282	7.6.4.7 Guard time
284	7.6.4.8 Calculating channel time requests
285	7.6.4.9 Relinquishing CTA time to another DEV
286	7.6.5 PAP after association
287	7.7 Channel time management for piconets 7.7.1 General 7.7.2 Isochronous stream management 7.7.2.1 General
288	7.7.2.2 Isochronous stream creation
290	7.7.2.3 Isochronous stream modification
293	7.7.2.4 Isochronous stream termination
295	7.7.3 Asynchronous channel time reservation and termination 7.7.3.1 Asynchronous channel time reservation
298	7.7.3.2 Asynchronous channel time termination 7.7.4 Multicast group configuration
300	7.8 Synchronization for piconet 7.8.1 General 7.8.2 Time accuracy
301	7.8.3 Beacon generation 7.8.4 Beacon reception
302	7.8.5 Beacon information announcement
303	7.8.6 Superframe support for directional PHYs 7.8.6.1 Overview 7.8.6.2 Quasi-omni beacon
304	7.8.6.3 Directional CAP
305	7.8.6.4 Directional association
306	7.8.6.5 DEV quasi-omni transmit direction training and tracking
308	7.9 Synchronization for pairnet 7.9.1 General 7.9.2 Time accuracy 7.9.3 Beacon generation
309	7.9.4 Beacon Information announcement 7.10 Fragmentation and defragmentation for piconets
310	7.11 Aggregation 7.11.1 Piconet standard aggregation
311	7.11.2 Piconet low-latency aggregation
312	7.11.3 Pairnet aggregation
314	7.12 Acknowledgment and retransmission 7.12.1 Overview 7.12.2 No acknowledgment (no-ACK)
315	7.12.3 Immediate acknowledgment (Imm-ACK) for piconets 7.12.4 Delayed acknowledgment (Dly-ACK) for piconets
316	7.12.5 Implied acknowledgment (Imp-ACK) for piconets
318	7.12.6 Block acknowledgment (Blk-ACK) for piconets 7.12.6.1 General 7.12.6.2 Blk-ACK for standard aggregation
319	7.12.6.3 Blk-ACK for low-latency aggregation
320	7.12.7 Stack acknowledgment (Stk-ACK) for pairnets 7.12.7.1 Ping-pong transmission and Stk-ACK (Synchronous Phase)
321	7.12.7.2 Recovery Process (Asynchronous Phase) 7.12.8 Retransmissions 7.12.9 Duplicate detection
322	7.13 Piconet peer discovery 7.13.1 General 7.13.2 PNC information request 7.13.3 Probe request and response
323	7.13.4 Announce 7.13.5 Channel status request 7.13.6 Remote scan
324	7.13.7 PNC channel scanning
325	7.13.8 Channel probing 7.14 Changing piconet parameters 7.14.1 General 7.14.2 Moving beacon
326	7.14.3 Changing superframe duration 7.14.4 Setting the PNID or BSID
327	7.14.5 Maintaining synchronization in dependent piconets
328	7.15 Piconet interference mitigation 7.15.1 General 7.15.2 Dynamic channel selection
330	7.15.3 Transmit power control (TPC) 7.15.3.1 General 7.15.3.2 Maximum transmitter power for the CAP, beacon, and directed MCTAs 7.15.3.3 Adjustable transmitter power in a CTA 7.16 Multi-rate support
332	7.17 Power management for piconet 7.17.1 General 7.17.2 Piconet synchronized power save (PSPS) mode
333	7.17.3 Device synchronized power save (DSPS) mode 7.17.3.1 General
334	7.17.3.2 Creation, use, and management of DSPS sets
335	7.17.3.3 Changing DSPS mode and operation
336	7.17.3.4 CTA timing in DSPS mode
337	7.17.4 Asynchronous power save (APS) mode
338	7.17.5 MSCs for power save modes
342	7.18 Power management for pairnet
343	7.19 AS IE operation
346	7.20 MAC sublayer parameters
349	7.21 Unequal error protection (UEP)
350	7.22 Sync frame transmission and virtually dependent piconet
351	8. Security 8.1 Security mechanisms 8.1.1 General 8.1.2 Security membership and key establishment 8.1.3 Key transport 8.1.4 Data encryption 8.1.5 Data integrity 8.1.6 Beacon integrity protection
352	8.1.7 Command integrity protection 8.1.8 Freshness protection 8.2 Security modes 8.2.1 General 8.2.2 Security mode 0
353	8.2.3 Security mode 1 8.3 Security support 8.3.1 General 8.3.2 PNC handover in piconets 8.3.3 Changes in the group data key
354	8.3.4 Joining a secure network 8.3.5 Membership update
355	8.3.6 Secure frame generation
356	8.3.7 Updating CurrentTimeToken 8.3.8 Secure frame reception
357	8.3.9 Selecting the SECID for a new key 8.3.10 Key selection
363	8.4 Protocol details 8.4.1 General 8.4.2 Security information request and distribution
365	8.4.3 Key distribution protocol 8.4.4 Key request protocol
366	9. Security specifications for piconets 9.1 Modes for security 9.2 Symmetric cryptography building blocks 9.2.1 Notational conventions 9.2.2 CCM combined encryption and data authentication 9.2.3 CCM parameters 9.2.4 Nonce value
367	9.2.5 AES encryption 9.3 Symmetric cryptography implementation 9.3.1 Symmetric cryptography data formats
368	9.3.2 Symmetric cryptographic operations
369	9.4 CCM mode 9.4.1 General 9.4.2 Inputs
370	9.4.3 Data authentication
372	9.4.4 Encryption
373	9.4.5 Output 9.4.6 Decryption 9.4.7 Restrictions 9.4.8 List of symbols
375	10. Security specifications for pairnets 10.1 Modes for security 10.2 Symmetric cryptography building blocks 10.2.1 Notational conventions 10.2.2 Galois/Counter Mode (GCM) combined encryption and data authentication 10.2.3 GCM parameters 10.2.4 Nonce value
376	10.2.5 AES encryption 10.3 Symmetric cryptography implementation 10.3.1 Symmetric cryptography data formats
377	10.3.2 Symmetric cryptographic operations
379	10.4 GCM mode 10.4.1 General 10.4.2 Inputs for authenticated encryption
380	10.4.3 Authenticated encryption
382	10.4.4 Outputs from authenticated encryption 10.4.5 Inputs for authenticated decryption
383	10.4.6 Authenticated decryption 10.4.7 Restrictions 10.4.8 List of symbols
385	11. PHY specification for the 2.4 GHz band 11.1 Overview of the 2.4 GHz PHY
386	11.2 General requirements 11.2.1 Operating frequency range 11.2.2 Radio frequency (RF) power measurements 11.2.3 Channel assignments 11.2.4 Scanning channels
387	11.2.5 Unwanted emissions 11.2.6 Operating temperature range 11.2.7 PHY layer timing 11.2.7.1 General 11.2.7.2 Interframe space 11.2.7.3 Receive-to-transmit turnaround time
388	11.2.7.4 Transmit-to-receive turnaround time 11.2.7.5 Time between successive transmissions 11.2.7.6 Channel switch time 11.2.8 Data size restrictions 11.2.8.1 General 11.2.8.2 Maximum frame length 11.2.8.3 Maximum transfer unit size 11.2.8.4 Minimum fragment size 11.2.9 Header check sequence
390	11.2.10 Channel access methods
391	11.3 Modulation and coding 11.3.1 General 11.3.2 Base data rate 11.3.3 Signal constellations
392	11.3.4 DQPSK modulation
393	11.3.5 QPSK and 16/32/64-QAM with trellis coding
400	11.4 PHY frame format 11.4.1 Frame format
402	11.4.2 PHY preamble
403	11.4.3 Header modulation
404	11.4.4 Scrambling
405	11.4.5 PHY header
406	11.4.6 Stuff bits 11.4.7 Tail symbols
409	11.5 Transmitter specifications 11.5.1 Error vector magnitude definition 11.5.2 EVM calculated values
410	11.5.3 Transmit power spectral density (PSD) mask 11.5.4 Transmit center frequency tolerance
411	11.5.5 Symbol rate 11.5.6 Clock synchronization 11.5.7 Transmit power-on and power-down ramp 11.5.8 RF carrier suppression 11.5.9 Transmit power
412	11.6 Receiver specifications 11.6.1 Error rate criterion 11.6.2 Receiver sensitivity 11.6.3 Receiver maximum input level 11.6.4 Receiver jamming resistance
413	11.6.5 Receiver CCA performance
414	11.6.6 Receiver RSSI 11.6.7 Link quality indication (LQI) 11.7 PHY management
417	12. PHY specification for millimeter wave 12.1 General requirements 12.1.1 Overview 12.1.2 Regulatory information
418	12.1.3 RF power measurements 12.1.4 Unwanted emissions 12.1.5 Operating temperature range 12.1.6 RF channelization
419	12.1.7 Transmit PSD mask 12.1.8 Error vector magnitude calculation 12.1.8.1 SC PHY 12.1.8.2 AV and HSI PHYs
420	12.1.9 Common PHY management for mmWave PHY modes 12.1.9.1 Supported MCSs
421	12.1.9.2 Preferred fragment size 12.1.9.3 Receive Status field
422	12.1.10 Requirements for mmWave PNCs
423	12.1.11 CP operation 12.1.12 mmWave PHY mode usage in CTA 12.1.13 Common mode signaling (CMS) 12.1.13.1 General
424	12.1.13.2 Forward error correction for CMS 12.1.13.3 Code spreading for CMS
425	12.1.13.4 Scrambling for CMS 12.1.13.5 PHY preamble for CMS
426	12.1.13.6 Frame header for CMS 12.1.13.7 PHY header for CMS
427	12.1.13.8 PHY Payload field for CMS 12.1.13.9 Receiver clear channel assessment performance for CMS 12.1.14 mmWave PHY PIB
429	12.2 Single Carrier Mode of mmWave PHY (SC PHY) 12.2.1 General
430	12.2.2 PHY operating specifications of SC PHY 12.2.2.1 Channelization 12.2.2.2 Scanning channels 12.2.3 Modulation, forward error correction, and spreading 12.2.3.1 MCS-dependent parameters
431	12.2.3.2 Header rate-dependent parameters
432	12.2.3.3 Timing-related parameters 12.2.3.4 Frame-related parameters
434	12.2.3.5 Modulation 12.2.3.5.1 General
435	12.2.3.5.2 p/2 BPSK 12.2.3.5.3 p/2 QPSK 12.2.3.5.4 p/2 8-PSK 12.2.3.5.5 p/2 16-QAM
436	12.2.3.6 FEC 12.2.3.6.1 General 12.2.3.6.2 Reed-Solomon block codes in GF(28)
437	12.2.3.6.3 Irregular LDPC codes
439	12.2.3.6.4 Rate 14/15 LDPC code
440	12.2.3.7 Stuff bits
441	12.2.3.8 Code spreading 12.2.3.8.1 General 12.2.3.8.2 Golay sequences 12.2.3.8.3 PRBS generation with LFSR
442	12.2.3.9 Unequal error protection
443	12.2.3.10 Scrambling
444	12.2.4 SC PHY frame format 12.2.4.1 Overview
445	12.2.4.2 PHY preamble 12.2.4.2.1 General 12.2.4.2.2 Sync field 12.2.4.2.3 SFD field 12.2.4.2.4 Channel estimation sequence (CES) 12.2.4.3 Frame header 12.2.4.3.1 General
447	12.2.4.3.2 SC PHY header
448	12.2.4.3.3 Base header HCS 12.2.4.3.4 Base header FEC 12.2.4.3.5 MAC subheader HCS
449	12.2.4.3.6 MAC subheader FEC 12.2.4.4 SC PHY Payload field 12.2.4.4.1 General 12.2.4.4.2 SC PHY Payload scrambling 12.2.4.4.3 Modulation 12.2.4.4.4 FEC 12.2.4.4.5 Code spreading
450	12.2.4.5 Pilot word and PCES 12.2.4.5.1 Subblocks and pilot word 12.2.4.5.2 Pilot channel estimation sequence (PCES)
451	12.2.5 Transmitter specifications 12.2.5.1 Error vector magnitude 12.2.5.2 Transmit center frequency tolerance 12.2.5.3 Symbol rate 12.2.5.4 Transmit power-on and power-down ramp 12.2.6 Receiver specifications 12.2.6.1 Error rate criterion
452	12.2.6.2 Receiver sensitivity 12.2.6.3 Receiver maximum input level 12.2.6.4 Receiver clear channel assessment performance
453	12.2.7 PHY layer timing 12.2.7.1 General 12.2.7.2 Interframe space 12.2.7.3 Receive-to-transmit turnaround time 12.2.7.4 Transmit-to-receive turnaround-time 12.2.7.5 Time between successive transmissions
454	12.2.7.6 Channel switch 12.2.8 PHY management for SC PHY 12.2.8.1 General 12.2.8.2 Maximum frame size 12.2.8.3 Maximum transfer unit size 12.2.8.4 Minimum fragment size 12.2.9 Optional OOK/DAMI modes 12.2.9.1 General
455	12.2.9.2 OOK 12.2.9.3 DAMI 12.2.9.4 FEC 12.2.9.5 OOK/DAMI spreading 12.3 High Speed Interface mode of mmWave PHY 12.3.1 General 12.3.2 Operating frequency bands
456	12.3.3 HSI PHY modulation, forward error correction, and spreading 12.3.3.1 MCS-dependent parameters
457	12.3.3.2 HSI PHY timing-related parameters
458	12.3.3.3 HSI PHY frame-related parameters
459	12.3.3.4 HSI PHY FEC 12.3.3.4.1 Overview 12.3.3.4.2 LDPC block code
460	12.3.3.4.3 EEP data multiplexer 12.3.3.4.4 UEP data multiplexer 12.3.3.4.5 Bit interleaver
461	12.3.3.5 Stuff bits
462	12.3.3.6 Constellation mapping
463	12.3.3.7 HSI spreader 12.3.3.7.1 General
464	12.3.3.7.2 Spreader for spreading factor of 1 12.3.3.7.3 Spreader for spreading factor of 48 12.3.3.8 Tone interleaver
465	12.3.3.9 HSI PHY OFDM modulator 12.3.3.9.1 General
466	12.3.3.9.2 Pilot subcarriers
467	12.3.3.9.3 Guard subcarriers 12.3.3.10 Pilot channel estimation sequence (PCES) insertion 12.3.3.11 HSI PHY scrambling
468	12.3.4 HSI PHY frame format 12.3.4.1 Overview 12.3.4.2 PHY preamble
469	12.3.4.3 Frame header
471	12.3.4.4 HSI PHY header
472	12.3.4.5 Header check sequences (HCSs) 12.3.4.5.1 Main Header HCS 12.3.4.5.2 MAC Subheader HCS
473	12.3.4.6 PHY Payload field 12.3.5 Transmitter specifications 12.3.5.1 EVM requirement
474	12.3.5.2 Chip rate and clock alignment 12.3.6 Receiver specifications 12.3.6.1 Receiver sensitivity 12.3.6.2 Receiver CCA performance 12.3.6.3 Receiver maximum input level 12.3.6.4 PHY layer timing 12.3.6.5 Interframe spacing
475	12.3.6.6 Receive-to-transmit turnaround time 12.3.6.7 Transmit-to-receive turnaround time 12.3.6.8 Time between successive transmissions 12.3.6.9 Channel switch time 12.3.7 HSI PHY management 12.3.7.1 General 12.3.7.2 PHY supported data rate encoding 12.3.7.3 HSI PHY fragment size encoding
476	12.3.7.4 Maximum frame length 12.3.7.5 Maximum transfer unit size 12.3.7.6 Minimum fragment size 12.4 Audio/Visual (AV) mode of mmWave PHY 12.4.1 General
477	12.4.2 General requirements 12.4.2.1 AV PHY channelization
478	12.4.2.2 PHY layer timing 12.4.2.2.1 General
479	12.4.2.2.2 Interframe space 12.4.2.2.3 Receive-to-transmit turnaround time 12.4.2.2.4 Transmit-to-receive turnaround time 12.4.2.2.5 Time between successive transmissions
480	12.4.2.2.6 Channel switch time 12.4.2.2.7 CCA detect time 12.4.2.3 Data size restrictions 12.4.2.3.1 General 12.4.2.3.2 Maximum frame length 12.4.2.3.3 Maximum transfer unit size 12.4.2.3.4 Minimum fragment size 12.4.2.4 Header check sequence 12.4.3 AV PHY modulation and forward error correction 12.4.3.1 General
482	12.4.3.2 AV PHY base rate 12.4.3.3 Repetition coding and spatial diversity
483	12.4.3.4 Stuff bits 12.4.3.5 HRP splitter and scrambler
484	12.4.3.6 LRP scrambler 12.4.3.7 HRP outer code 12.4.3.8 HRP outer interleaver
485	12.4.3.9 Convolutional encoder
486	12.4.3.10 Puncturing 12.4.3.11 HRP data multiplexer and bit interleaver 12.4.3.11.1 General 12.4.3.11.2 EEP data multiplexer
487	12.4.3.11.3 UEP coding data multiplexer
489	12.4.3.11.4 UEP mapping data multiplexer
491	12.4.3.11.5 HRP header data multiplexer 12.4.3.12 Bit reversal tone interleaver
492	12.4.3.13 Signal constellations
493	12.4.3.14 AV PHY non-data subcarriers 12.4.3.15 AV PHY OFDM modulation
494	12.4.4 AV PHY frame formats 12.4.4.1 General
495	12.4.4.2 HRP preamble
496	12.4.4.3 HRP header
497	12.4.4.4 LRP preamble sequences
498	12.4.4.5 Long omni LRP preamble
499	12.4.4.6 Short omni LRP preamble
500	12.4.4.7 Omni LRP header 12.4.4.8 Directional LRP preamble 12.4.4.9 Directional LRP header and payload
502	12.4.5 AV PHY transmitter requirements 12.4.5.1 TX mask 12.4.5.2 EVM requirement
503	12.4.5.3 Symbol timing 12.4.5.4 TX frequency accuracy
504	12.4.5.5 TX power ramp on and off 12.4.6 AV PHY Receiver characteristics 12.4.6.1 Error rate criterion 12.4.6.2 Sensitivity 12.4.6.3 Maximum input level 12.4.7 Preambles and training symbols
509	13. PHY specification for HRCP 13.1 General requirements 13.1.1 Overview 13.1.2 Regulatory Information 13.1.3 RF power measurements 13.1.4 Unwanted emissions 13.1.5 RF channelization
510	13.1.6 Transmit PSD mask
512	13.1.7 Error vector magnitude calculation 13.1.8 HRCP-PHY management 13.1.8.1 Supported MCSs 13.1.8.2 HRCP-PHY PIB
514	13.2 HRCP-SC PHY 13.2.1 General 13.2.2 Channelization of HRCP-SC PHY
515	13.2.3 Modulation and coding 13.2.3.1 MCS-dependent parameters 13.2.3.2 Header rate-dependent parameters
516	13.2.3.3 Timing-related parameters 13.2.3.4 Frame-related parameters
517	13.2.3.5 Modulation
518	13.2.3.6 Forward Error Correction
520	13.2.3.7 Stuff bits
521	13.2.3.8 Code spreading 13.2.3.9 Scrambling 13.2.4 HRCP-SC PHY frame format 13.2.4.1 General 13.2.4.2 PHY preamble 13.2.4.2.1 Overview
522	13.2.4.2.2 Frame synchronization (SYNC) 13.2.4.2.3 SFD 13.2.4.2.4 CES
523	13.2.4.3 Frame header 13.2.4.3.1 General
524	13.2.4.3.2 HRCP-SC PHY header
525	13.2.4.3.3 Header check sequence (HCS) 13.2.4.3.4 Header FEC
526	13.2.4.4 HRCP-SC PHY Payload field 13.2.4.4.1 General 13.2.4.4.2 HRCP-SC PHY Payload scrambling
527	13.2.4.4.3 Modulation 13.2.4.4.4 FEC 13.2.4.5 Pilot word and PPRE 13.2.4.5.1 Block and pilot word 13.2.4.5.2 PPRE 13.2.5 Transmitter specifications 13.2.5.1 EVM requirement 13.2.5.2 Transmit center frequency tolerance
528	13.2.5.3 Symbol rate 13.2.5.4 Transmit power-on and power-down ramp 13.2.6 Receiver specifications 13.2.6.1 Error rate criterion 13.2.6.2 Receiver sensitivity
529	13.2.6.3 Receiver maximum input level 13.2.7 PHY layer timing 13.2.7.1 General 13.2.7.2 Interframe space
530	13.2.7.3 Receive-to-transmit turnaround time 13.2.7.4 Transmit-to-receive turnaround-time 13.2.7.5 Time between transmission 13.2.7.6 Channel switch 13.2.8 PHY management for HRCP-SC PHY 13.2.8.1 General 13.2.8.2 Maximum frame size
531	13.2.8.3 Maximum transfer unit size 13.2.8.4 Minimum fragment size 13.2.9 MIMO, channel bonding, and channel aggregation 13.2.9.1 Introduction to MIMO in SC PHY 13.2.9.2 Channel aggregation and channel bonding
532	13.2.9.3 Link setup procedure for MIMO mode
534	13.2.9.4 Selecting antenna element
535	13.2.9.5 MIMO PHY Preamble 13.2.9.5.1 Overview 13.2.9.5.2 SYNC 13.2.9.5.3 SFD 13.2.9.5.4 CES for frequency domain channel estimation
536	13.2.9.5.5 CES for time-domain channel estimation 13.2.9.6 Data processing for M-streams transmission in MIMO mode or channel aggregation 13.2.9.7 HRCP-SC-MIMO PHY Header
537	13.2.9.8 HRCP-SC PHY MIMO Payload field 13.2.9.9 Scrambler 13.2.9.10 Transmitter specifications 13.2.9.11 Receiver specifications 13.2.9.11.1 Error rate criterion
538	13.2.9.11.2 Receiver sensitivity 13.3 HRCP-OOK PHY 13.3.1 General
539	13.3.2 Channel bonding 13.3.2.1 General 13.3.2.2 Channelization for HRCP-OOK PHY 13.3.2.3 Transmit PSD mask for HRCP-OOK
540	13.3.3 Modulation and coding 13.3.3.1 MCS dependent parameters 13.3.3.2 Header rate-dependent parameters
541	13.3.3.3 Timing-related parameters
542	13.3.3.4 Frame-related parameters 13.3.3.5 Modulation 13.3.3.5.1 General
543	13.3.3.5.2 OOK 13.3.3.5.3 Description of signals 13.3.3.6 Forward Error Correction
545	13.3.3.7 Code spreading 13.3.3.7.1 Overview 13.3.3.7.2 PRBS generation with LFSR
546	13.3.3.8 Scrambling
547	13.3.4 HRCP-OOK PHY frame format 13.3.4.1 Overview 13.3.4.2 PHY Preamble 13.3.4.2.1 General
548	13.3.4.2.2 SYNC 13.3.4.2.3 SFD
549	13.3.4.2.4 CES 13.3.4.2.5 Preamble Repetition
550	13.3.4.3 Frame header 13.3.4.3.1 General
551	13.3.4.3.2 HRCP-OOK PHY header 13.3.4.3.3 Base header HCS 13.3.4.3.4 Base header FEC 13.3.4.4 HRCP-OOK PHY Payload field 13.3.4.4.1 General
552	13.3.4.4.2 HRCP-OOK PHY Payload scrambling 13.3.4.4.3 Modulation 13.3.4.4.4 FEC 13.3.4.4.5 Code spreading 13.3.4.4.6 Blocks and Pilot symbol
553	13.3.5 Transmitter specifications 13.3.5.1 Error Vector Magnitude 13.3.5.2 Transmit center frequency tolerance 13.3.5.3 Symbol rate 13.3.6 Receiver specifications 13.3.6.1 Error rate criterion 13.3.6.2 Receiver sensitivity
554	13.3.6.3 Receiver maximum input level 13.3.7 PHY layer timing 13.3.7.1 General 13.3.7.2 IFS
555	13.3.7.3 Receive-to-transmit turnaround time 13.3.7.4 Transmit-to-receive turnaround time 13.3.7.5 Time between transmission 13.3.7.6 Channel switch 13.3.8 PHY management for HRCP-OOK PHY 13.3.8.1 General 13.3.8.2 Maximum frame size 13.3.8.3 Maximum transfer unit size 13.3.8.4 Minimum fragment size
556	14. PHY specification for THz 14.1 General requirements 14.1.1 Overview 14.1.2 RF power measurements 14.1.3 RF channelization
562	14.1.4 Transmit PSD mask
564	14.1.5 Error vector magnitude calculation 14.1.6 THz PHY management 14.1.6.1 General 14.1.6.2 THz PHY PIB 14.1.6.3 Maximum frame size 14.1.6.4 Maximum transfer unit size
565	14.1.6.5 Minimum fragment size
566	14.2 THz-SC PHY 14.2.1 General 14.2.2 Channelization of THz-SC PHY 14.2.3 Modulation and coding 14.2.3.1 Modulation
569	14.2.3.2 Forward error correction (FEC) 14.2.3.3 MCS dependent parameters
571	14.2.3.4 Header dependent parameters 14.2.3.5 Timing-related parameters 14.2.3.6 Frame-related parameters
572	14.2.3.7 Stuff bits
573	14.2.3.8 Code spreading 14.2.3.9 Scrambling 14.2.4 THz-SC PHY frame format 14.2.4.1 General 14.2.4.2 PHY preamble
574	14.2.4.3 Frame header 14.2.4.3.1 General 14.2.4.3.2 THz-SC PHY frame header
575	14.2.4.3.3 Header HCS 14.2.4.3.4 Header FEC
576	14.2.4.4 THz-SC PHY Payload field 14.2.4.4.1 General 14.2.4.4.2 THz-SC PHY payload scrambling 14.2.4.4.3 Modulation 14.2.4.4.4 FEC 14.2.4.5 PW and PPRE 14.2.4.5.1 Block and PW 14.2.4.5.2 PPRE 14.2.5 Transmitter specifications 14.2.5.1 EVM requirement
577	14.2.5.2 Transmit center frequency tolerance 14.2.5.3 Symbol rate 14.2.6 Receiver specifications 14.2.6.1 Error rate criterion
578	14.2.6.2 Receiver sensitivity 14.2.6.3 Receiver maximum input level 14.2.7 PHY layer timing 14.2.7.1 General
579	14.2.7.2 Interframe space 14.2.7.3 Receive-to-transmit turnaround time 14.2.7.4 Transmit-to-receive turnaround-time 14.2.7.5 Time between successive transmissions 14.2.7.6 Channel switch 14.3 THz-OOK PHY 14.3.1 General 14.3.2 Channelization for THz-OOK PHY 14.3.3 Modulation and coding 14.3.3.1 Overview
580	14.3.3.2 Modulation
581	14.3.3.3 Forward error correction 14.3.3.4 MCS dependent parameters 14.3.3.5 Header dependent parameters 14.3.3.6 Timing-related parameters 14.3.3.7 Frame-related parameters
582	14.3.3.8 Stuff bits 14.3.3.9 Code spreading 14.3.3.10 Scrambling 14.3.4 THz-OOK PHY frame format 14.3.4.1 General 14.3.4.2 THz-OOK PHY frame header
583	14.3.4.3 THz-OOK PHY Payload field 14.3.4.3.1 General 14.3.4.3.2 THz-OOK PHY Payload scrambling 14.3.4.3.3 Modulation 14.3.4.3.4 FEC 14.3.4.4 Blocks and PW
584	14.3.4.5 PPRE 14.3.5 Transmitter specifications 14.3.5.1 EVM requirement 14.3.5.2 Transmit center frequency tolerance 14.3.5.3 Symbol rate 14.3.6 Receiver specifications 14.3.6.1 Error rate criterion 14.3.6.2 Receiver sensitivity
585	14.3.6.3 Receiver maximum input level 14.3.7 PHY layer timing 14.3.7.1 General 14.3.7.2 Interframe space 14.3.7.3 Receive-to-transmit turnaround time 14.3.7.4 Transmit-to-receive turnaround-time 14.3.7.5 Time between successive transmissions 14.3.7.6 Channel switch
586	15. Beam forming 15.1 Introduction
587	15.2 Beam-forming terminology 15.2.1 General 15.2.2 Quasi-omni patterns
588	15.2.3 Sectors 15.2.4 Beams
589	15.2.5 Clusters
590	15.3 Beam-forming codebooks
592	15.4 Beam-forming reference model
594	15.5 Beam-forming protocol 15.5.1 General 15.5.2 Two-level training mechanism 15.5.2.1 General 15.5.2.2 Sector-level training 15.5.2.2.1 General 15.5.2.2.2 AAS sector-level training
597	15.5.2.2.3 SAS sector-level training
600	15.5.2.2.4 Sector-level training failure remedy 15.5.2.3 Beam-level training 15.5.2.3.1 General 15.5.2.3.2 AAS beam-level training
604	15.5.2.3.3 SAS beam-level training
606	15.5.3 Beam tracking
608	15.6 On-demand beam forming 15.7 Proactive beam forming 15.8 TSD
610	Annex A (informative) Bibliography
611	Annex B (normative) Frame convergence sublayer B.1 Generic convergence sublayer
612	B.2 EPD FCSL PDU classification
613	B.3 EPD FCSL B.3.1 Overview B.3.2 EPD FCSL QoS support
614	B.3.3 Data entity inter-relationships B.4 EPD FCSL SAP B.4.1 Overview
615	B.4.2 MA-UNITDATA.request B.4.3 MA-UNITDATA.indication
616	B.4.4 MA-UNITDATA-STATUS.indication
617	B.5 Stream SAP B.5.1 Overview B.5.2 Stream creation, modification, and deletion B.5.2.1 Overview
619	B.5.2.2 STREAM_INITIATE.request B.5.2.3 STREAM_INITIATE.confirm B.5.2.4 STREAM_INITIATE.indication
620	B.5.2.5 STREAM_MODIFY.request B.5.2.6 STREAM_MODIFY.confirm B.5.2.7 STREAM_END.request
621	B.5.2.8 STREAM_END.confirm B.5.2.9 STREAM_END.indication B.5.3 Stream data interface B.5.3.1 Overview
622	B.5.3.2 STREAM_DATA.request
623	B.5.3.3 STREAM_DATA.confirm B.5.3.4 STREAM_DATA.indication
624	Annex C (informative) Security considerations C.1 Background assumptions C.1.1 General C.1.2 Physical assumptions C.1.3 Network assumptions
625	C.1.4 Attack model assumptions C.1.5 Security key lifecycle issues C.1.5.1 Key lifecycle C.1.5.2 Membership lifecycle C.1.5.3 Group membership change rekey C.2 Claimed security services C.2.1 General
626	C.2.2 Beacon protection protocol C.2.3 Distribute key protocol C.2.4 Key request protocol C.2.5 Data protection protocol
627	C.3 Properties of the IEEE 802.15.3 security suite C.3.1 Key usage C.3.2 Replay prevention
630	Annex D (informative) Coexistence, interoperability, and interference D.1 Interoperability D.1.1 Overview D.1.2 Interoperability with IEEE 802.11 DSSS and IEEE 802.11b
631	D.1.3 IEEE 802.11 FHSS and IEEE 802.15.1 D.2 Coexistence D.2.1 General D.2.2 Coexistence with IEEE Std 802.11b D.2.2.1 Overview
632	D.2.2.2 Passive scanning D.2.2.3 Dynamic channel selection D.2.2.4 Ability to request channel quality information D.2.2.5 Link quality and RSSI
633	D.2.2.6 Channel plan that minimizes channel overlap D.2.2.7 Lower transmit power D.2.2.8 Transmit power control
634	D.2.2.9 Neighbor piconet capability D.2.3 Coexistence with IEEE 802.15.1 and IEEE 802.11 FHSS D.2.3.1 General D.2.3.2 PHY collaborative coexistence enhancements
635	D.2.3.3 MAC coexistence via collaboration D.2.3.4 Other techniques D.3 Coexistence performance D.3.1 Allowed operation
636	D.3.2 Assumptions for coexistence calculations
637	D.3.3 Performance impact on IEEE 802.15.3 piconets D.3.3.1 Overview D.3.3.2 IEEE 802.11b overlapping with IEEE 802.15.3
641	D.3.3.3 IEEE 802.15.1 and IEEE 802.11 FHSS overlapping with IEEE 802.15.3
642	D.4 Notes on the calculations
643	Annex E (informative) Protocol implementation conformance statement (PICS) proforma E.1 Introduction E.1.1 General E.1.2 Scope E.1.3 Purpose E.2 Abbreviations and special symbols
644	E.3 Instructions for completing the PICS proforma E.4 Identification of the implementation
645	E.5 Identification of the protocol E.6 Global statement of conformance
646	E.7 Protocol implementation conformance statement (PICS) proforma E.7.1 Overview E.7.2 Major roles for IEEE 802.15.3 DEVs
647	E.7.3 PHY functions
653	E.7.4 Major capabilities for the MAC sublayer E.7.4.1 MAC frames for piconet
658	E.7.4.2 MAC frames for pairnet
660	E.7.4.3 MAC sublayer functions for piconet
664	E.7.4.4 MAC sublayer functions for pairnet
665	E.7.4.5 Security support
666	Annex F (informative) Implementation considerations F.1 Channel time requests F.1.1 Types of channel time allocations (CTAs)
667	F.1.2 Interpretation of channel time requests
668	F.1.3 Determining CTA Rate Factor from stream requirements F.1.3.1 General
669	F.1.3.2 Example 1
670	F.1.3.3 Example 2 F.1.4 PNC interpretation of CTA rate factor
671	F.1.5 Creating channel time requests from MLME requests
673	F.1.6 Interpreting channel time requests
675	F.2 Sample frames
677	F.3 Use of multiple millimeter wave (mmWave) PHYs in a single piconet
679	Annex G (normative) Optional OOK/DAMI modes G.1 Introduction G.2 Child piconet operation G.3 DAMI
681	G.4 PHY preamble
682	G.5 PHY frame format G.6 Interframe space
683	G.7 Eye opening for OOK G.8 Error vector magnitude (EVM) for DAMI
684	Back cover