2021年802.11ax无线局域网标准升级：高效WLAN增强技术

802.11

wifi6

需积分: 5 136 浏览量更新于2024-06-26 收藏 5.24MB PDF 举报

身份认证购VIP最低享 7 折!

领优惠券(最高得80元）

802.11ax-2021是IEEE（Institute of Electrical and Electronics Engineers）在2021年发布的无线局域网（WLAN）标准的增补规范，它作为IEEE 802.11-2020标准的修订版，专注于提升高效率无线局域网络（WLAN）性能。该标准由LAN/MAN Standards Committee（局域网/城域网标准委员会）在IEEE计算机协会的指导下制定，并于2021年2月9日得到了IEEE Standards Board的批准。 802.11ax, 通常称为Wi-Fi 6，其核心目标在于通过引入新技术和改进现有技术来增强网络的吞吐量、覆盖范围、连接密度和能效。相较于前一代标准，802.11ax引入了以下关键特性： 1. **高效多流技术**：利用MU-MIMO（多用户多入多出）和OFDMA（正交频分多址）技术，允许多个设备同时传输数据，显著提高了数据传输速率和效率。 2. **增强的频谱效率**：通过更精细的子载波分配和更高阶调制方式（如1024-QAM），在相同频谱带宽内实现更高的数据承载能力。 3. **更快的帧结构**：新的帧结构设计允许更快的空口处理，减少空闲时间，从而提高整体网络性能。 4. **更智能的调度**：采用更先进的QoS（服务质量）管理机制，动态调整资源分配，确保关键应用得到优先处理。 5. **更好的能效**：通过优化协议和硬件设计，降低功耗，延长电池寿命，特别是在高负载和移动设备场景下。 6. **更大的覆盖范围**：增强的信号处理和多天线技术有助于改善信号强度和信号质量，扩展无线网络的覆盖范围。 802.11ax-2021标准的发布，旨在满足日益增长的物联网(IoT)、高清视频流媒体、远程工作等对无线网络高速度和低延迟的需求。然而，下载和使用这一标准时，需要注意版权和许可限制，仅限于特定用户Jianhui Zhao，并且是在特定日期和时间范围内从IEEE Explore平台获取的。 802.11ax-2021是WLAN技术的重要里程碑，它通过技术创新推动了无线网络向更高的性能和更低的延迟迈进，对于现代无线基础设施的发展具有重要意义。

资源详情

资源推荐

10.6.5 Rate selection for Data and Management frames ...................................................... 244

10.6.5.1 Rate selection for non-STBC Beacon and non-STBC PSMP frames...... 244

10.6.5.3 Rate selection for other group addressed Data and Management frames 245

10.6.6 Rate selection for Control frames .............................................................................. 245

10.6.6.1 General rules for rate selection for Control frames ................................. 245

10.6.6.6 Channel Width selection for Control frames ........................................... 245

10.6.10 Modulation classes..................................................................................................... 246

10.6.11 Non-HT basic rate calculation ................................................................................... 247

10.6.12 Channel Width in non-HT and non-HT duplicate PPDUs ........................................ 248

10.6.13 Rate selection constraints for VHT STAs.................................................................. 248

10.6.13.3 Additional rate selection constraints for VHT PPDUs ............................ 248

10.8 HT Control field operation ...................................................................................................... 249

10.9 Control Wrapper operation ...................................................................................................... 251

10.11 A-MSDU operation.................................................................................................................. 251

10.12 A-MPDU operation.................................................................................................................. 252

10.12.1 A-MPDU contents ..................................................................................................... 252

10.12.2 A-MPDU length limit rules ....................................................................................... 252

10.12.3 Minimum MPDU Sstart Sspacing field rules ............................................................ 254

10.12.4 A-MPDU aggregation of group addressed Data frames ............................................ 254

10.12.6 A-MPDU padding for VHT PPDU, HE, or S1G PPDU............................................ 256

10.12.7 Setting the EOF/Tag field of the MPDU delimiter.................................................... 256

10.13 PPDU duration constraint ........................................................................................................ 256

10.15 Low-density parity check code (LDPC) operation .................................................................. 256

10.22 Operation across regulatory domains ...................................................................................... 257

10.22.3 Operation with operating classes ............................................................................... 257

10.22.4 Operation with the Transmit Power Envelope element ............................................. 258

10.23 HCF.......................................................................................................................................... 259

10.23.1 General....................................................................................................................... 259

10.23.2 HCF contention based channel access (EDCA) ........................................................ 259

10.23.2.2 EDCA backoff procedure ........................................................................ 259

10.23.2.4 Obtaining an EDCA TXOP ..................................................................... 260

10.23.2.5 EDCA channel access in a VHT, HE, or TVHT BSS ............................. 261

10.23.2.7 Sharing an EDCA TXOP......................................................................... 262

10.23.2.8 Multiple frame transmission in an EDCA TXOP.................................... 263

10.23.2.9 TXOP limits............................................................................................. 265

10.23.2.10 Truncation of TXOP ................................................................................ 267

10.23.2.11 Termination of TXOP.............................................................................. 267

10.23.2.12 Retransmit procedures ............................................................................. 267

10.23.3 HCF controlled channel access (HCCA) ................................................................... 268

10.23.3.5 HCCA transfer rules ................................................................................ 268

10.25 Block acknowledgment (block ack) ........................................................................................ 268

10.25.2 Setup and modification of the block ack parameters................................................. 268

10.25.5 Selection of BlockAck and BlockAckReq variants................................................... 268

10.25.6 HT-immediate block ack extensions.......................................................................... 269

10.25.6.1 Introduction to HT-immediate block ack extensions............................... 269

10.25.6.3 Scoreboard context control during full-state operation ........................... 270

10.25.6.5 Generation and transmission of BlockAck frames by an HT STA,

DMG STA, or S1G STA.......................................................................... 270

10.25.6.6 Receive reordering buffer control operation............................................ 270

10.25.8 GCR and GLK-GCR block ack ................................................................................. 271

10.25.8.1 Introduction General ................................................................................ 271

10.25.8.4 GCR block ack BlockAckReq and BlockAck frame exchanges ............. 271

10.27 Protection mechanisms ............................................................................................................ 273

10.27.6 Protection rules for HE STAs .................................................................................... 273

Authorized licensed use limited to: Jianhui Zhao. Downloaded on March 27,2023 at 04:19:41 UTC from IEEE Xplore. Restrictions apply.

10.29 Reverse direction protocol ....................................................................................................... 273

10.29.1 General....................................................................................................................... 273

10.29.2 Reverse direction (RD) exchange sequence .............................................................. 273

10.29.3 Rules for RD initiator ................................................................................................ 274

10.29.4 Rules for RD responder ............................................................................................. 275

10.36 Null data PPDU (NDP) sounding ............................................................................................ 276

10.36.6 Transmission of a VHT NDP..................................................................................... 276

10.47 Target wake time (TWT) ......................................................................................................... 276

10.47.1 TWT overview........................................................................................................... 276

10.47.9 TWT parameter ranges .............................................................................................. 280

11. MLME ............................................................................................................................................... 281

11.1 Synchronization ....................................................................................................................... 281

11.1.3 Maintaining synchronization ..................................................................................... 281

11.1.3.8 Multiple BSSID procedure ...................................................................... 281

11.1.4 Acquiring synchronization, scanning ........................................................................ 286

11.1.4.3 Active scanning and probing procedures................................................. 286

11.2 Power management.................................................................................................................. 287

11.2.3 Power management in a non-DMG infrastructure network....................................... 287

11.2.3.2 Non-AP STA power management modes................................................ 287

11.2.3.6 AP operation ............................................................................................ 288

11.2.3.7 Receive operation for STAs in PS mode ................................................. 289

11.2.3.9 STAs operating in active mode................................................................ 290

11.2.3.15 TIM Broadcast ......................................................................................... 290

11.2.6 SM power save........................................................................................................... 291

11.3 STA authentication and association......................................................................................... 293

11.3.3 Frame filtering based on STA state ........................................................................... 293

11.3.5 Association, reassociation, and disassociation .......................................................... 293

11.3.5.3 AP or PCP association receipt procedures............................................... 293

11.3.5.5 AP or PCP reassociation receipt procedures............................................ 293

11.3.8 Neighbor report information upon rejection with suggested BSS transition............. 293

11.4 TS operation............................................................................................................................. 294

11.4.4 TS setup ..................................................................................................................... 294

11.4.4.4 TS setup procedures for both AP and non-AP STA initiation................. 294

11.7 TPC procedures........................................................................................................................ 294

11.7.1 General....................................................................................................................... 294

11.7.2 Association based on transmit power capability........................................................ 294

11.7.3 Peering based on transmit power capability .............................................................. 294

11.7.5 Specification of regulatory and local maximum transmit power levels .................... 295

11.7.6 Transmit power selection........................................................................................... 297

11.10 Radio measurement procedures ...............................................................................................297

11.10.14Multiple BSSID set.................................................................................................... 297

11.20 Tunneled direct-link setup ....................................................................................................... 298

11.20.1 General....................................................................................................................... 298

11.21 Wireless network management procedures ............................................................................. 298

11.21.2 Event request and report procedures.......................................................................... 298

11.21.2.1 Event request and event report................................................................. 298

11.21.2.7 BSS color collision event......................................................................... 298

11.21.2.8 BSS color in use event ............................................................................. 299

11.21.6 Fine timing measurement (FTM) procedure.............................................................. 299

11.21.6.4 Measurement exchange............................................................................ 299

11.21.7 BSS transition management for network load balancing........................................... 299

11.21.7.1 BSS transition capability ......................................................................... 299

Authorized licensed use limited to: Jianhui Zhao. Downloaded on March 27,2023 at 04:19:41 UTC from IEEE Xplore. Restrictions apply.

11.21.7.4 BSS transition management response...................................................... 299

11.21.7.5 Planned ESS............................................................................................. 300

11.31 Multi-band operation ............................................................................................................... 300

11.31.5 On-channel Tunneling (OCT) operation.................................................................... 300

11.45 Fast Initial Link Setup (FILS) procedures ............................................................................... 301

11.45.2 FILS Discovery frame generation and usage............................................................. 301

11.45.2.1 FILS Discovery frame transmission ........................................................ 301

11.49 Reduced neighbor report.......................................................................................................... 302

11.53 Out-of-band discovery of a 6 GHz BSS .................................................................................. 304

12. Security .............................................................................................................................................. 307

12.5 RSNA confidentiality and integrity protocols ......................................................................... 307

12.5.3 CTR with CBC-MAC protocol (CCMP) ................................................................... 307

12.5.3.3 CCMP cryptographic encapsulation ........................................................ 307

12.5.5 GCM protocol (GCMP) ............................................................................................. 307

12.5.5.3 GCMP cryptographic encapsulation........................................................ 307

12.12 Constraints on allowed security parameters ............................................................................ 307

12.12.1 Introduction................................................................................................................ 307

12.12.2 Security constraints in the 6 GHz band ..................................................................... 307

14. MLME mesh procedures ................................................................................................................... 309

14.2 Mesh discovery ........................................................................................................................ 309

14.2.4 Mesh STA configuration ........................................................................................... 309

14.2.7 Candidate peer mesh STA ......................................................................................... 309

18. Extended Rate PHY (ERP) specification........................................................................................... 310

18.2 PHY-specific service parameter list ........................................................................................ 310

26. High-efficiency (HE) MAC specification.......................................................................................... 311

26.1 Introduction.............................................................................................................................. 311

26.2 HE channel access ................................................................................................................... 311

26.2.1 TXOP duration-based RTS/CTS ............................................................................... 311

26.2.2 Intra-BSS and inter-BSS PPDU classification........................................................... 312

26.2.3 SRG PPDU identification .......................................................................................... 313

26.2.4 Updating two NAVs .................................................................................................. 314

26.2.5 Truncation of TXOP .................................................................................................. 315

26.2.6 MU-RTS Trigger/CTS frame exchange procedure ................................................... 316

26.2.6.1 General..................................................................................................... 316

26.2.6.2 MU-RTS Trigger frame transmission...................................................... 317

26.2.6.3 CTS frame response to an MU-RTS Trigger frame ................................ 318

26.2.7 EDCA operation using MU EDCA parameters......................................................... 319

26.2.8 Multiple frame transmission in an EDCA TXOP in the 6 GHz band........................ 321

26.3 Fragmentation and defragmentation ........................................................................................ 321

26.3.1 General....................................................................................................................... 321

26.3.2 Dynamic fragmentation ............................................................................................. 323

26.3.2.1 General..................................................................................................... 323

26.3.2.2 Level 1 dynamic fragmentation ............................................................... 324

26.3.2.3 Level 2 dynamic fragmentation ............................................................... 324

26.3.2.4 Level 3 dynamic fragmentation ............................................................... 324

Authorized licensed use limited to: Jianhui Zhao. Downloaded on March 27,2023 at 04:19:41 UTC from IEEE Xplore. Restrictions apply.

26.3.3 Dynamic defragmentation.......................................................................................... 325

26.3.3.1 General..................................................................................................... 325

26.3.3.2 Level 1 dynamic defragmentation ........................................................... 326

26.3.3.3 Level 2 dynamic defragmentation ........................................................... 326

26.3.3.4 Level 3 dynamic defragmentation ........................................................... 327

26.4 HE acknowledgment procedure............................................................................................... 328

26.4.1 Overview.................................................................................................................... 328

26.4.2 Acknowledgment context in a Multi-STA BlockAck frame ..................................... 330

26.4.3 Negotiation of block ack bitmap lengths ................................................................... 332

26.4.4 Per-PPDU acknowledgment selection rules .............................................................. 333

26.4.4.1 General..................................................................................................... 333

26.4.4.2 Responding to an HE SU PPDU or HE ER SU PPDU with an

SU PPDU ................................................................................................. 333

26.4.4.3 Responding to an HE MU PPDU with an SU PPDU .............................. 334

26.4.4.4 Responding to an HE MU PPDU, HE SU PPDU, or

HE ER SU PPDU with an HE TB PPDU ................................................ 334

26.4.4.5 Responding to an HE TB PPDU with an SU PPDU................................ 335

26.4.4.6 Responding to an HE TB PPDU with an HE MU PPDU........................ 336

26.4.5 HE block acknowledgment request and response rules............................................. 337

26.5 MU operation........................................................................................................................... 338

26.5.1 HE DL MU operation ................................................................................................ 338

26.5.1.1 General..................................................................................................... 338

26.5.1.2 RU addressing in an HE MU PPDU........................................................ 338

26.5.1.3 RU allocation in an HE MU PPDU ......................................................... 340

26.5.2 UL MU operation....................................................................................................... 341

26.5.2.1 General..................................................................................................... 341

26.5.2.2 Rules for soliciting UL MU frames ......................................................... 341

26.5.2.3 Non-AP STA behavior for UL MU operation ......................................... 349

26.5.2.4 A-MPDU contents in an HE TB PPDU................................................... 353

26.5.2.5 UL MU CS mechanism............................................................................ 356

26.5.3 MU cascading sequence............................................................................................. 357

26.5.4 UL OFDMA-based random access (UORA)............................................................. 358

26.5.4.1 General..................................................................................................... 358

26.5.4.2 Eligible RA-RUs...................................................................................... 359

26.5.4.3 Transmission procedure for UORA......................................................... 360

26.5.4.4 Retransmission procedure for UORA...................................................... 362

26.5.4.5 Additional considerations for unassociated STAs ................................... 362

26.5.5 Buffer status report operation .................................................................................... 363

26.5.6 Bandwidth query report operation ............................................................................. 365

26.5.7 NDP feedback report procedure ................................................................................ 366

26.5.7.1 General..................................................................................................... 366

26.5.7.2 STA behavior........................................................................................... 366

26.5.7.3 AP behavior ............................................................................................. 368

26.5.7.4 NDP feedback report for a resource request............................................ 368

26.5.7.5 Power save operation with NDP feedback report procedure ................... 369

26.5.8 Use of TSPEC by HE STAs ...................................................................................... 369

26.5.9 UL MU transmit power capabilities .......................................................................... 369

26.6 A-MPDU operation in an HE PPDU ....................................................................................... 369

26.6.1 General....................................................................................................................... 369

26.6.2 A-MPDU padding in an HE PPDU ........................................................................... 371

26.6.2.1 General..................................................................................................... 371

26.6.2.2 A-MPDU padding in an HE SU PPDU, HE ER SU PPDU, and

HE MU PPDU ......................................................................................... 371

26.6.2.3 A-MPDU padding in an HE TB PPDU ................................................... 371

Authorized licensed use limited to: Jianhui Zhao. Downloaded on March 27,2023 at 04:19:41 UTC from IEEE Xplore. Restrictions apply.

26.6.3 Multi-TID A-MPDU and ack-enabled single-TID A-MPDU ................................... 372

26.6.3.1 General..................................................................................................... 372

26.6.3.2 Ack-enabled single-TID A-MPDU operation.......................................... 374

26.6.3.3 Non-ack-enabled multi-TID A-MPDU operation.................................... 374

26.6.3.4 Ack-enabled multi-TID A-MPDU operation........................................... 374

26.7 HE sounding protocol .............................................................................................................. 375

26.7.1 General....................................................................................................................... 375

26.7.2 HE sounding protocol ................................................................................................ 375

26.7.3 Rules for HE sounding protocol sequences ............................................................... 378

26.7.4 Rules for generating segmented feedback ................................................................. 384

26.7.5 HE sounding NDP transmission ................................................................................ 385

26.8 TWT operation......................................................................................................................... 385

26.8.1 General....................................................................................................................... 385

26.8.2 Individual TWT agreements ...................................................................................... 386

26.8.3 Broadcast TWT operation.......................................................................................... 390

26.8.3.1 General..................................................................................................... 390

26.8.3.2 Rules for TWT scheduling AP................................................................. 392

26.8.3.3 Rules for TWT scheduled STA ............................................................... 396

26.8.4 Use of TWT Information frames ............................................................................... 400

26.8.4.1 General..................................................................................................... 400

26.8.4.2 TWT Information frame exchange for individual TWT.......................... 401

26.8.4.3 TWT Information frame exchange for broadcast TWT........................... 402

26.8.4.4 TWT Information frame exchange for flexible wake time...................... 403

26.8.5 Power save operation during TWT SPs..................................................................... 404

26.8.6 Negotiation of wake TBTT and wake interval .......................................................... 405

26.8.7 HE subchannel selective transmission....................................................................... 407

26.8.7.1 General..................................................................................................... 407

26.8.7.2 SST operation .......................................................................................... 407

26.9 Operating mode indication....................................................................................................... 408

26.9.1 General....................................................................................................................... 408

26.9.2 Receive operating mode (ROM) indication............................................................... 411

26.9.3 Transmit operating mode (TOM) indication ............................................................. 412

26.10 Spatial reuse operation............................................................................................................. 413

26.10.1 General....................................................................................................................... 413

26.10.2 OBSS PD-based spatial reuse operation.................................................................... 414

26.10.2.1 General..................................................................................................... 414

26.10.2.2 General operation with non-SRG OBSS PD level................................... 414

26.10.2.3 General operation with SRG OBSS PD level.......................................... 416

26.10.2.4 Adjustment of OBSS PD and transmit power ......................................... 417

26.10.2.5 OBSS PD SR transmit power restriction period...................................... 420

26.10.2.6 OBSS PD-based spatial reuse backoff procedure.................................... 421

26.10.3 PSR-based spatial reuse operation............................................................................. 422

26.10.3.1 General..................................................................................................... 422

26.10.3.2 PSR-based spatial reuse initiation............................................................ 422

26.10.3.3 PSR-based spatial reuse backoff procedure............................................. 423

26.10.3.4 UL Spatial Reuse subfield of Trigger frame............................................ 423

26.10.3.5 PSRT PPDU transmission requirements.................................................. 424

26.10.3.6 PSRT PPDU reception and response transmission requirements ............ 424

26.10.4 Interaction of OBSS PD and PSR-based spatial reuse .............................................. 424

26.11 Rules for setting some TXVECTOR parameters for PPDUs transmitted by an HE STA....... 425

26.11.1 STA_ID...................................................................................................................... 425

26.11.2 UPLINK_FLAG ........................................................................................................ 426

26.11.3 BEAM_CHANGE ..................................................................................................... 426

26.11.4 BSS_COLOR............................................................................................................. 426

Authorized licensed use limited to: Jianhui Zhao. Downloaded on March 27,2023 at 04:19:41 UTC from IEEE Xplore. Restrictions apply.

剩余766页未读，继续阅读

奋斗-永无止境

粉丝: 358
资源: 12

会员权益专享

2021年802.11ax无线局域网标准升级：高效WLAN增强技术

802.11ax-2021 标准

IEEE Std 802.11ax-2021 Wireless LAN Medium Access Control (MAC)

802.11ax-2021.pdf

WIFI发展史：从IEEE 802.11b到802.11ax

密集IEEE 802.11ax WLAN中支持MU-MIMO的上行链路OFDMA MAC协议

"IEEE 802.11ax网络中的有效资源分配：OFDMA技术与Wi-Fi 6

IEEE 802.11ax下的上行链路OFDMA MAC协议支持MU-MIMO的密集WLAN下的性能优化

802.11标准解析与演进

ieee 802.11ax-2021

802.11ax-2021 pdf

ieee802.11ax-2021

ieee std 802.11ax ‐2021

IEEE 802.11 Wi-Fi有哪些规范

802.11ax前瞻4：802.11ax与HiperLan

OFDMA/802.11ax MU-MIMO

802.11ax MU-BAR

802.11ax NAV

802.11ax物理层协议介绍

802.11ax mac 帧

会员权益专享

最新资源