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IEEE 802.15.13-2023

IEEE 802.15.13-2023

$92.08

IEEE Standard for Multi-Gigabit per Second Optical Wireless Communications (OWC), with Ranges up to 200 m, for Both Stationary and Mobile Devices (Published)

Published By Publication Date Number of Pages
IEEE 2023 158
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New IEEE Standard – Active. The protocol and compatible network equipment for optical wireless communications and its operation as an optical wireless personal area network (OWPAN), supporting data rates of multiple Gbit/s for wireless specialty applications, are defined in this standard. A medium access control (MAC) sublayer, supporting scheduled and polled medium access, as well as two physical layers (PHYs), enabling low complexity, low power, and high throughput are included.

PDF Catalog

PDF Pages PDF Title
1 IEEE Std 802.15.13-2023 Front cover
2 Title page
4 Important Notices and Disclaimers Concerning IEEE Standards Documents
8 Participants
10 Introduction
11 Contents
17 1. Overview
1.1 Scope
1.2 Purpose
1.3 Word usage
18 2. Normative references
3. Definitions, acronyms, and abbreviations
3.1 Definitions
19 3.2 Acronyms and abbreviations
21 4. Conventions
4.1 Names
4.2 Frame and element representation
22 4.3 Byte order and representation
23 4.4 Numbers
4.5 Reserved fields and values
5. General description
5.1 Introduction
24 5.2 Components of IEEE 802.15.13 networks
5.3 Network topologies
5.3.1 Logical topology
25 5.3.2 Distributed MIMO star topology
26 5.3.3 Broadcast topology
5.3.4 Relay topology
27 5.4 Coexistence
5.5 Device architecture
5.5.1 Overview
29 5.5.2 Dimming support
5.5.3 Flicker mitigation support
5.6 MAC sublayer overview
5.6.1 General
5.6.2 Data transfer model
30 5.6.3 Data transfer through a relay device
5.6.4 Adaptive transmission
5.6.5 MAC frames
31 5.6.6 Medium access mechanism
5.6.7 Frame acknowledgment and retransmission
5.6.8 Data verification
5.6.9 Security
5.7 Physical layer overview
5.7.1 Overview
5.7.2 PM-PHY introduction
32 5.7.3 HB-PHY introduction
6. MAC functional specification
6.1 Overview
6.2 General device functions
6.2.1 General
33 6.2.2 Addressing
6.2.3 Transmitting an MPDU
34 6.2.4 Receiving an MPDU
35 6.2.5 Sequence numbering
6.2.6 Transmission of management information
6.3 Scheduled medium access
6.3.1 Overview
6.3.2 Superframe structure
36 6.3.3 Synchronization
38 6.3.4 Medium access in GTS
6.3.4.1 General medium access in an RTS
6.3.4.2 Failed transmissions in RTS
39 6.3.4.3 Association procedure in RTS
40 6.3.4.4 Queue report procedure in RTS
6.3.5 Medium access in GTS
6.3.6 GTS allocation and assignment
41 6.3.7 Guard time
42 6.4 Polled medium access
6.4.1 Overview
43 6.4.2 Medium access duplex
44 6.4.3 Random access polling period (RAPP)
45 6.4.4 Dedicated polling period (DPP)
46 6.5 OWPAN management
6.5.1 Overview
6.5.2 Scanning for OWPANs
47 6.5.3 Starting an OWPAN
48 6.5.4 Maintaining an OWPAN
6.5.5 Stopping an OWPAN
49 6.5.6 Associating with an OWPAN
6.5.6.1 Association request
6.5.6.2 Association response
50 6.5.7 Disassociating from an OWPAN
6.5.7.1 Overview
51 6.5.7.2 Disassociation through the member
6.5.7.3 Disassociation through the coordinator
6.5.8 Disassociation through timeout
52 6.5.9 Interference detection
6.6 Fragmentation
6.7 Data transfer
6.7.1 Overview
53 6.7.2 Single MSDU transmission
6.7.3 Multiple MSDU aggregation
6.8 Acknowledged transmission
6.8.1 Overview
55 6.8.2 Single acknowledgment
6.8.3 Block acknowledgment
56 6.8.4 Retransmission
6.9 Adaptive transmission
6.9.1 Overview
6.9.2 Transmission of essential frames
57 6.9.3 MCS request
6.9.3.1 Overview
6.9.3.2 PM-PHY MCS request procedure
6.9.3.3 HB-PHY MCS request procedure
58 6.10 MIMO transmission
6.10.1 Explicit MIMO channel feedback
6.10.2 Adaptive MIMO transmission
59 6.11 Relaying
6.11.1 Overview
6.11.2 Determining potential relay configurations
60 6.11.3 Activating a relay link
61 6.11.4 Deactivating a relay link
6.11.5 Relaying frames
62 7. MAC frame formats
7.1 General MAC frame format
7.1.1 Overview
63 7.1.2 Frame Control field
64 7.1.3 Address fields
7.1.4 Payload Element ID field
7.1.5 Sequence Control field
7.1.6 Fragmentation Control field
65 7.1.7 Relay Control field
7.1.8 Payload
7.1.9 FCS field
66 7.2 Elements
7.2.1 Overview
68 7.2.2 Null element
7.2.3 Management Procedure Container element
7.2.4 Multiple Element Container element
69 7.2.5 Multiple Device Element Container element
7.2.6 Vendor Specific element
70 7.2.7 Sync element
7.2.8 RTS Descriptor element
71 7.2.9 GTS Descriptor List element
7.2.10 GTS Descriptor element
7.2.11 Queue Report element
72 7.2.12 Random Access element
7.2.13 Random Access Response element
7.2.14 Poll element
7.2.15 Poll Response element
73 7.2.16 Announcement element
7.2.17 Association Request element
74 7.2.18 Association Response element
7.2.19 Disassociation Notification element
75 7.2.20 Capability List element
76 7.2.21 Supported MCS element
7.2.22 PM-PHY MCS List element
77 7.2.23 HB-PHY MCS List element
7.2.24 MCS Request element
78 7.2.25 PM-PHY MCS element
7.2.26 HB-PHY MCS element
79 7.2.27 Attribute Change Request element
80 7.2.28 Attribute Change Response element
81 7.2.29 Interference Notification element
7.2.30 Explicit MIMO Feedback element
83 7.2.31 Single MSDU element
84 7.2.32 Single Address Aggregated MSDU element
7.2.33 Multiple Address Aggregated MSDU element
85 7.2.34 Single ACK element
7.2.35 Block ACK Request element
86 7.2.36 Block ACK element
7.2.37 Reachable Address element
87 7.2.38 Relay Device Configuration Request element
7.2.39 Relay Device Configuration Response element
88 7.2.40 Relayed Device Configuration Request element
7.2.41 Relayed Device Configuration Response element
89 8. MAC services
8.1 Overview
8.2 MD-SAP
8.2.1 Overview
90 8.2.2 MD-DATA.request
8.2.3 MD-DATA.indication
91 8.3 MLME-SAP
8.3.1 Overview
8.3.2 Common requirements for MLME primitives
92 8.3.3 MLME-ASSOCIATE
8.3.3.1 General description
8.3.3.2 MLME-ASSOCIATE.request
8.3.3.3 MLME-ASSOCIATE.confirm
93 8.3.3.4 MLME-ASSOCIATE.indication
8.3.3.5 MLME-ASSOCIATE.response
94 8.3.4 MLME-DISASSOCIATE
8.3.4.1 General description
8.3.4.2 MLME-DISASSOCIATE.request
95 8.3.4.3 MLME-DISASSOCIATE.confirm
96 8.3.4.4 MLME-DISASSOCIATE.indication.
8.3.5 MLME-GET
8.3.5.1 General description
8.3.5.2 MLME-GET.request
97 8.3.5.3 MLME-GET.confirm
8.3.6 MLME-SET
8.3.6.1 General description
98 8.3.6.2 MLME-SET.request
8.3.6.3 MLME-SET.confirm
99 8.3.7 MLME-SCAN
8.3.7.1 General description
8.3.7.2 MLME-SCAN.request
8.3.7.3 MLME-SCAN.confirm
100 8.3.8 MLME-START
8.3.8.1 General description
8.3.8.2 MLME-START.request
101 8.3.8.3 MLME-START.confirm
8.3.9 MLME-STOP
8.3.9.1 General description
8.3.9.2 MLME-STOP.request
102 8.3.9.3 MLME-STOP.confirm
8.4 MAC PIB attributes
104 8.5 MAC constants
105 8.6 Device capabilities
9. PHY service
9.1 Overview
106 9.2 PD-SAP
9.2.1 Overview
9.2.2 PHY MCS
9.2.3 Explicit MIMO channel estimation
9.2.4 MIMO transmission via multiple OFEs
9.3 PLME-SAP
9.3.1 Overview
107 9.3.2 PHY PIB attributes
9.3.3 PHY constants
9.4 PHY requirements
9.4.1 Timing requirements
9.4.2 Regulatory requirements
108 10. PM-PHY specifications
10.1 General information
10.1.1 Overview
10.1.2 Base MCS
10.1.3 OFE index mapping
109 10.1.4 PHY constants
10.2 PPDU format
10.2.1 Overview
10.2.2 Bit order
10.2.3 Preamble
110 10.2.4 Header channel estimation
10.2.5 PHY header
111 10.2.6 Explicit MIMO pilots
113 10.2.7 Payload channel estimation
114 10.2.8 Payload
10.3 Modulation and coding
10.3.1 Overview
115 10.3.2 Clock rate
10.3.3 Scrambler
10.3.4 Reed-Solomon FEC
116 10.3.5 8B10B line encoder
10.3.6 Bit-to-symbol mapper
10.3.7 Cyclic prefix
11. HB-PHY specifications
11.1 General information
11.1.1 Overview
117 11.1.2 Base MCS
11.1.3 PHY constants
118 11.1.4 PHY PIB attributes
11.2 PPDU format
11.2.1 Overview
119 11.2.2 Bit order
11.2.3 Preamble
11.2.4 Channel estimation
11.2.5 PHY header
123 11.2.6 Explicit MIMO pilots
125 11.2.7 Payload
11.3 Modulation and coding
11.3.1 Coding
11.3.1.1 Overview
126 11.3.1.2 Scrambler
11.3.1.3 Header FEC and repetition encoding
11.3.1.3.1 Overview
127 11.3.1.3.2 Header repetition encoder
11.3.1.4 Payload FEC and repetition encoding
11.3.1.4.1 Overview
128 11.3.1.4.2 Payload repetition encoder
129 11.3.1.5 LDPC encoder
11.3.1.5.1 LDPC overview
131 11.3.1.5.2 Encoding
11.3.1.5.3 Puncturing
132 11.3.1.5.4 FEC encoding parameters
11.3.2 Adaptive bitloading
11.3.2.1 Overview
133 11.3.2.2 Subcarrier spacing and indexing
11.3.2.3 Tone mapping
136 11.3.2.4 Constellation encoder
139 11.3.2.5 Constellation scrambling
140 11.3.3 OFDM modulator
142 Annex A (informative) Bibliography
143 Annex B (normative) Implementation requirements
B.1 Cyclic redundancy check
B.2 Pseudo-noise sequences AN
144 B.3 Generation of Hadamard matrices
146 B.4 LDPC parity check matrices
148 B.5 Variable sampling factor sequences
150 Annex C (informative) Dimming support using constant bias current
151 Annex D (normative) Protocol Implementation Conformance Statement (PICS) proforma
D.1 Introduction
D.2 Format and completion of the PICS
152 D.3 Capabilities and options
158 Back cover

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