ДСТУ ISO/IEC 26907:2016 Інформаційні технології. Телекомунікації та обмін інформацією між системами. Високошвидкісний надширокосмуговий протокол фізичного рівня (PHY) і стандарт керування доступом до середови...

ПІДТВЕРДЖУВАЛЬНЕ ПОВІДОМЛЕННЯ

Наказ від 07.10.2016 № 307

прийнято як національний стандарт методом «підтвердження» за позначенням

З наданням чинності від 2016-10-10

Contents

Foreword

Introduction

1 Scope

2 Conformance

3 Normative references

4 Terms and definitions

5 Notational conventions

6 Abbreviations and acronyms

7 General description

7.1 PHY general description

7.2 MAC general description

7.2.1 General description of the architecture

7.2.2 Device address

7.2.3 Features assumed from the PHY ...

7.2.4 Overview of MAC service functionality .....

7.2.5 MUX sublayer

7.2.6 MAC policies

7.2.7 Test vectors

8 PHY layer partitioning

8.1 PHY function

8.2 PLCP sublayer

8.3 PMD sublayer

8.4 PHY layer management entity (PLME)

Description of signal

9.1 Mathematical framework

9.2 Tone-Nulling

10 PLCP sublayer

10.1 PPDU

10.1.1 PSDU rate-dependent parameters

10.1.2 Timing-related parameters

10.1.3 Frame-related parameters

10.2 PLCP preamble

10.2.1 Standard PLCP preamble

10.2.2 Burst PLCP preamble

10.3 PLCP header

10.3.1 PHY header

10.3.2 Reed-Solomon outer code for the PLCP header

10.3.3 Header check sequence

10.4 PSDU

10.4.1 Pad bits

10.5 Data scrambler

10.6 Tail bits

10.7 Convolutional encoder

10.8 Bit interleaving

10.9 Constellation mapping

10.9.1 QPSK

10.9.2 Dual-carrier modulation (DCM)

10.10 OFDM modulation

10.10.1 Implementation considerations

10.10.2 Data subcarriers

10.10.3 Guard subcarriers

10.10.4 Pilot subcarriers

11 General requirements

11.1 Operating band frequencies 

11.1.1 Operating frequency range .

11.1.2 Band numbering

11.2 Channelization

11.3 PHY layer timing

11.3.1 Interframe spacing

11.3.2 Receive-to-transmit turnaround time

11.3.3 Transmit-to-receive turnaround time ..

113.4 Time between successive transmissions

11.3.5 Band frequency switch time

12 Transmitter specifications

12.1 Transmit PSD mask

12.2 Transmit centre frequency tolerance

12.3 Symbol clock frequency tolerance

12.4 Clock synchronization

12.5 Phase coherence

12.6 Transmit power control

12.7 Transmitter constellation error

13 Receiver specification

13.1 Receiver sensitivity

13.2 Receiver CCA performance

13.3 Link quality indicator

13.4 Receive Signal Strength Indicator

14 Ranging and location awareness

14.1 Ranging requirements

14.2 Ranging reference signal

14.3 PHY ranging resources

14.4 PHY ranging operation

14.5 Ranging calibration constants

14.6 Example range measurement (informative)

15 PHY and MAC service access points (informative)

15.1 Generic MIB management primitives

15.1.1 XX-GET.request

15.1.2 XX-GET.confirm

15.1.3 XX-SET.request

15.1.4 XX-SET.confirm

15.2 PHY SAP interface

15.2.1 Data transfer

15.2.2 PHY transmission control

15.2.3 PHY reception control

15.2.4 PHY CCA control

15.3 PLME SAP interface

15.3.1 PHY reset

15.3.2 PHY ranging timer control

15.4 MAC sublayer management primitives

15.5 MAC management information base (MIB) .

15.6 MLME SAP interface

15.6.1 Reset

15.6.2 Scan

15.6.3 Beacon transmission and reception

15.6.4 IE management

15.6.5 PTK establishment

15.6.6 GTK solicitation/distribution

15.6.7 Temporal key update

15.6.8 Security violation report

15.6.9 Pseudo-random function (PRF)

15.6.10 Application-specific IE (ASIE) management

15.6.11 Multicast address binding

15.6.12 Link events

15.6.13 Probe

15.6.14 Hibernation and sleep cycle

15.6.15 Higher layer synchronization support

15.6.16 Reservation management

15.6.17 Connection configuration primitives

15.6.18 Range measurement

15.6.19 Application-specific command management

15.7 MAC SAP interface

15.7.1 MAC-DATA.request

15.7.2 MAC-DATA.indication

15.7.3 MAC-DATA.confirm

16 MAC frame formats

16.1 Frame format conventions

16.1.1 Figures

16.1.2 Octet order

16.1.3 Encoding

16.2 General MAC frame format

16.2.1 Frame control

16.2.2 DestAddr

16.2.3 SrcAddr

16.2.4 Sequence control

16.2.5 Access information

16.2.6 Frame payload

16.2.7 FCS

16.3 Beacon frames

16.4 Control frames

16.4.1 Immediate acknowledgement (Imm-ACK)

16.4.2 Block acknowledgement (B-ACK)

16.4.3 Request to send (RTS)

16.4.4 Clear to send (CTS)

16.4.5 Unused DRP reservation announcement (UDA)

16.4.6 Unused DRP reservation response (UDR)

16.4.7 Application-specific

16.5 Command frames

16.5.1 DRP reservation request

16.5.2 DRP reservation response

16.5.3 Probe

16.5.4 Pairwise temporal key (PTK)

16.5.5 Group temporal key (GTK)

16.5.6 Range measurement

16.5.7 Application-specific

16.6 Data frames

16.7 Aggregated data frames

16.8 Information elements

16.8.1 Application-specific IE (ASIE)

16.8.2 Application-specific probe IE

16.8.3 Beacon period occupancy IE (BPOIE)

16.8.4 BP switch IE

16.8.5 Channel change IE

16.8.6 Distributed reservation protocol (DRP) IE

16.8.7 DRP availability IE

16.8.8 Hibernation anchor IE

16.8.9 Hibernation mode IE

16.8.10 Identification IE

16.8.11 Link feedback IE

16.8.12 MAC capabilities IE

16.8.13 Master key identifier (MKID) IE

16.8.14 Multicast address binding (MAB) IE

16.8.15 PCA availability IE

16.8.16 PHY capabilities IE

16.8.17 Probe IE .

16.8.18 Regulatory Domain IE

16.8.19 Relinquish request IE

16.8.20 Tone-nulling (TN) IE

16.8.21 Traffic indication map (TIM) IE

17 MAC sublayer functional description

17.1 Frame processing

17.1.1 Frame addresses

17.1.2 Frame reception

17.1.3 Frame transaction

17.1.4 Frame transfer

17.1.5 Frame retry

17.1.6 Inter-frame space (IFS)

17.1.7 Duplicate detection

17.1.8 RTS/CTS use

17.1.9 MAC header fields

17.1.10 Information elements

17.2 Beacon period

17.2.1 Beacon slot state

17.2.2 BP length

17.2.3 Beacon transmission and reception

17.2.4 Beacon slot collision detection

17.2.5 BP contraction

17.2.6 Merger of multiple BPs

17.3 Prioritized contention access (PCA)

17.3.1 PCA medium availability

17.3.2 NAV

17.3.3 Medium status

17.3.4 PCA parameters

17.3.5 Obtaining a TXOP

17.3.6 Using a TXOP

17.3.7 Invoking a backoff procedure

17.3.8 Decrementing a backoff counter

17.4 Distributed reservation protocol (DRP)

17.4.1 Reservation type

17.4.2 Medium access

17.4.3 DRP availability IE

17.4.4 DRP reservation negotiation

17.4.5 DRP reservation announcements

17.4.6 Resolution of DRP reservation conflicts

17.4.7 BPST realignment and existing DRP reservations

17.4.8 Modification and termination of existing DRP reservations

17.4.9 Release of hard or private DRP reservation blocks

17.4.10 Retransmit procedures in DRP reservations

17.5 Synchronization of devices

17.5.1 Clock accuracy .

17.5.2 Synchronization for devices in hibernation mode ..

17.5.3 Guard times

17.6 Fragmentation and reassembly

17.7 Aggregation ..

17.8 Acknowledgement policies ..

17.8.1 No-ACK

17.8.2 Immediate ACK .

17.8.3 Block ACK ..

17.9 Probe

17.10 Dynamic channel selection

17.11 Multi-rate support

17.12 Transmit power control

17.13 Power management mechanisms

17.13.1 Power management modes 

17.13.2 Device power states

17.13.3 Power state transitions

17.13.4 Hibernation mode operation

17.13.5 Hibernation anchor operation

17.14 ASIE operation

17.15 Range measurement operation

17.16 MAC sublayer parameters

18 Security

18.1 Security mechanisms

18.1.1 Security operation

18.1.2 4-way handshake

18.1.3 Key transport

18.1.4 Freshness protection

18.1.5 Data encryption

18.1.6 Frame integrity protection

18.2 Security modes

18.2.1 Security mode 0

18.2.2 Security mode 1

18.2.3 Security mode 2

18.3 Temporal keys

18.3.1 Mutual authentication and PTK derivation

18.3.2 GTK exchange

18.3.3 Pseudo-random function (PRF) definition

18.3.4 PTK and KCK derivation

18.3.5 PTK MIC generation

18.3.6 Random number generation

18.4 Frame reception steps and replay prevention measures

18.4.1 Frame reception

18.4.2 Replay prevention

18.4.3 Implications on GTKs

18.5 AES-128 CCM Inputs

18.5.1 Overview

18.5.2 Nonce

18.5.3 CCM blocks

Annex A (normative) MUX sublayer

Annex B (normative) MAC Policies

Annex C (normative) Assigned number document

Annex D (informative) MAC test vectors

Annex E (informative) Example encoding of a PHY packet

Annex F (informative) Recommended out-of-band emission limits

Annex G (informative) Range measurement calculations

Bibliography