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GB/T 34984-2017 English PDF

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GB/T 34984-2017EnglishRFQ ASK 3 days [Need to translate] Information technology -- Telecommunications and information exchange between systems -- Local and metropolitan area networks -- MAC and PHY specification for ultra-high rate wireless personal area network Valid GB/T 34984-2017

PDF similar to GB/T 34984-2017


Standard similar to GB/T 34984-2017

GB/T 37684   GB/T 36326   GB/T 36327   GB/T 16262.1   GB/T 34985   

Basic data

Standard ID GB/T 34984-2017 (GB/T34984-2017)
Description (Translated English) Information technology -- Telecommunications and information exchange between systems -- Local and metropolitan area networks -- MAC and PHY specification for ultra-high rate wireless personal area network
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard L79
Classification of International Standard 35.110
Word Count Estimation 542,579
Date of Issue 2017-11-01
Date of Implementation 2018-05-01
Regulation (derived from) National Standard Announcement 2017 No. 29
Issuing agency(ies) General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China

GB/T 34984-2017: Information technology -- Telecommunications and information exchange between systems -- Local and metropolitan area networks -- MAC and PHY specification for ultra-high rate wireless personal area network



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Information technology-Telecommunications and information exchange between systems-Local and metropolitan area networks-MAC and PHY specification for ultra high rate wireless personal area network ICS 35.110 L79 National Standards of People's Republic of China Information technology - Telecommunications and information exchange between systems LAN and MAN super fast wireless personal area network Media Access Control and Physical Layer Specifications Informationtechnology-Telecommunications and information exchange Posted.2017-11-01 2018-05-01 implementation General Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China China National Standardization Administration released Directory Introduction Ⅶ Introduction Ⅷ 1 Scope 1 2 Normative references 1 3 Terms, definitions and abbreviations 1 3.1 Terms and definitions 1 3.2 Abbreviations 6 4 Overview 8 4.1 Architecture Overview 8 4.2 WLAN system is different 8 4.3 Structure Components of ISO /IEC /IEEE 8802.11 4.4 Logical Service Interface 13 4.5 Service Overview 14 4.6 more logical address space 16 4.7 ESS, PBSS and IBSS LAN differences 16 4.8 The difference between ESS and MBSSLAN 17 4.9 Reference Model 17 4.10 ISO /IEC /IEEE8802.11-2012 and IEEE802.1X-200419 4.11 General Notification Service (GAS) 21 5 MAC layer service definition 21 5.1 MAC Services Overview 21 5.2 MAC Data Services Specification 23 6 layer management 24 6.1 Management Model Overview 24 6.2 General Management Primitives 24 6.3 MLMESAP interface 24 6.4 MAC Status General Aggregation Function (MSGCF) 97 6.5 PLMESAP Interface 97 7 PHY Service Description 101 7.1 Scope 101 7.2 PHY Features 101 7.3 Detailed PHY Service Descriptions 101 7.4 PHY Management 104 8 frame format 104 8.1 General requirements 104 8.2 MAC Layer Frame Format 104 8.3 Individual frame type format 113 8.4 Managing and Expanding Frame Body Components 128 8.5 Fields Used in Managing and Extending the Frame Body and Control Frames 195 8.6 Action Frame Format Details.199 8.7 Aggregate MPDU (A-MPDU) 9 MAC Sublayer Function Description 236 9.1 Overview 236 9.2 MAC Structure 236 9.3 DCF 238 9.4 PCF 245 9.5 Slice 245 Restructuring 246 9.7 Multi-rate support 246 9.8 MSDU Transmission Limit 248 9.9 HT Control Domain Operation 248 9.10 Control Encapsulation Operation 248 9.11 A-MSDU Operation 248 9.12 A-MPDU Operation 249 9.13 PPDU Duration Limit 250 9.14 DMGA-PPDU Operation 250 9.15 LDPC Operation 251 9.16 STBC Operation 251 9.17 Short GI operation 251 9.18 Greenland Operations 251 9.19 Inter-Administration Operations 251 9.20 HCF 252 9.21 Mesh Coordination Function 254 9.22 Block Confirmation No confirmed NoAck 258 9.24 Protection Process 258 9.25 MAC Frame Processing 258 9.26 Reverse Protocol 259 9.27 PSMP Operations 261 9.28 Sounding PPDU 261 9.29 Link Adaptation 261 9.30 Transmit Beam Forming 9.31 Antenna Selection (ASEL) 261 9.32 Empty Packet (NDP) sounding 261 9.33 Mesh Forwarding Architecture 9.34 DMG Channel 262 9.35 DMGPCP/AP Cluster Mechanism 280 9.36 CDMGPCP/AP Cluster Mechanism 289 9.37 DMG Beamforming 298 9.38 DMG Group Confirmation with Flow Control 330 9.39 DMG Link Adaptation 333 9.40 DMG Dynamic Subcarrier Pairing (DTP) 335 9.41 DMG Relay Operation 336 9.42 Dynamic Bandwidth Control Mechanism 342 10 MLME 350 10.1 Synchronization 350 10.2 Power Management 361 10.3 STA Authentication and Association 369 10.4 TS Operation 381 10.5 Block Confirmation Operation 391 10.6 Top Timing Synchronization 393 10.7 DLS Operation 393 10.8 TPC Process 393 10.9 DFS Procedure 395 10.10 Extended Channel Conversion 397 10.11 Radio Measurement Process 397 10.12 DSE Process 399 10.13 Group Addressing Robust Management Frame Procedure 399 10.14 SA Inquiry Process 399 10.15 20/40MHz BSS Operation 399 10.16 Phased Co-existence Operation 399 10.17 20/40BSS Coexistence Management Frame Usage 400 10.18 RSNAA-MSDU Procedure 400 10.19 Public active frame addressing 400 10.20 STA communication data frame 400 outside the BSS 10.21 Timing Broadcasting 400 10.22 Pipeline direct link establishment 400 10.23 Wireless Network Management Process 400 10.24 Process of Interaction Between WLAN and External Network 402 10.25 Maintenance of DMG Beamforming Link and BSS 403 10.26 DMGB SS Peers and Service Discovery 407 10.27 Change DMGB SS parameter 408 10.28 DMGSTA Spatial Multiplexing and Interference Suppression 410 10.29 Multi-band operation 413 10.30 MMSL Cluster Operation 423 10.31 Coexistence of DMG and non-IEEE 802.11 systems 10.32 DMG Relay Operation 426 10.33 Mute adjacent DMGB SSs 429 10.34 DMG Beamforming 430 10.35 DMGMAC sublayer parameters 431 10.36 Dynamic Channel Transfer Process 432 Security 434 Fast BSS Transition 435 13 MLME Mesh Application 435 13.1 Mesh STA Limitations 435 13.2 Mesh Discovery 435 13.3 Mesh Equip Management (MPM) 435 13.4 Mesh Peer-to-Peer Management Finite State Machine (MPMFSM) 435 13.5 Identification of Mesh Equal Exchanges (AMPE) 435 13.6 Mesh Group Key Handshake 435 13.7 Mesh Security 435 13.8 Mesh Network Path Selection and Metrics Architecture 435 13.9 Talk Link Metrics 435 13.10 Hybrid Wireless Mesh Protocol (HWMP) 435 13.11 Communicate with DS 435 13.12 Intranet congestion control 436 Synchronization and Beacons in 13.13 MBSSs 13.14 Power Savings in Mesh BSS 436 14 Frequency Hopping Spread Spectrum (FHSS) PHY Specification for 2.4GHz Industrial, Scientific and Medical (ISM) Bands 436 15 Infrared (IR) PHY Specification 436 DSSSPHY Specification for 2.4GHzISM Application High Speed Direct Sequence Spread Spectrum (HR/DSSS) PHY Specification 436 18 Orthogonal Frequency Division Multiplexing (OFDM) PHY Specification 436 19 Extended Rate PHY (EPP) Specification 436 20 High Throughput (HT) PHY Specification 436 Directed multi-gigabit (DMG) PHY specification 436 21.1 DMGPHY Overview 436 21.2 DMGPHY Service Interface 437 21.3 Common Parameters 440 21.4 DMG Control PHY 450 21.5 DMGOFDMPHY 454 21.6 DMGSCPHY 463 21.7 DMG Low Power SCPHY 470 21.8 PLCP Sending Process 473 21.9 PLCP receive process 475 21.10 Beamforming 477 21.11 Golay sequence 480 21.12 DMGPLME 482 21.13 DMGPMD sublayer 484 The CDMGPHY specification 488 22.1 CDMGPHY Overview 488 22.2 CDMGPHY Service Interface 489 22.3 Common Parameters 492 22.4 CDMG Control PHY 499 22.5 CDMGOFDMPHY 501 22.6 CDMGMRSCPHY 506 22.7 CDMGHRSCPHY 511 22.8 CDMG Low Power SCPHY 517 22.9 PLCP Transfer Process 518 22.10 PLCP receive process 519 22.11 Beamforming 520 22.12 CDMGPLME 523 22.13 CDMGPMD sublayer 523 Appendix A (Normative) 89 ~ 0d Ethernet type usage 526 Appendix B (Informative) N-phase Beam Codebook 527 Appendix C (normative) operation category 529 Appendix D (Normative) 1/Mbit Sampling Low-Power Idle Listen Strategy 530 Appendix E (informative) Beam tracking and AWV handover decision algorithm with enhanced wave speed tracking strategy 531

Foreword

This standard was drafted in accordance with the rules given in GB/T 1.1-2009. This standard by the National Information Technology Standardization Technical Committee (SAC/TC28) and focal point. This standard drafting unit. China Electronics Standardization Institute, Shenzhen HiSilicon Co., Ltd., Tsinghua University, Chinese Academy of Sciences Microelectronics Research Institute, Beijing University of Posts and Telecommunications, Fujitsu Research and Development Center Co., Ltd., ZTE Corporation, UNLIMITED Science and Technology (Beijing) Co., Ltd., Fudan University, National Radio Monitoring Center, Jiangsu University of Science and Technology. The main drafters of this standard. Li Dejian, Zhuo Lan, Peng Xiaoming, Jin Depeng, Chen Min, Su Li, Chen Qian, Li Zhiqiang, Huang Shan Guo, Zhang Haiying, Wang Hao, Tian Jun, Ye Fan, Zou Weixia, Xing Weimin, Sun Bo, Liu Pei, Fan Xiaojing, Niu Yong, Feng Wei, Xu Jianfang, Ren Junyan, Xu Jianfang, Liu Jianhan, Liu Zongru, Court Kailong, Ma wilderness, Hao Peng.

Introduction

This standard in the development process to ISO /IEC /IEEE8802-11.2012/Amd3.2014 as the basis, in accordance with China's 59GHz ~ The regulations of 64GHz band autonomously proposed CDMGPHY specification, and revised and optimized ISO /IEC /IEEE8802-11. 2012/Amd3.2014 in the MAC layer protocol, the standard with ISO /IEC /IEEE8802 used in conjunction. The issuing authority of this standard draws attention to the fact that statements that conform to this document may relate to "beacon frame transmission methods and apparatus," "interference coordinator Method, device and system "and 9.36.3.2,9.36.3.3 related patents. The issuing authority of this document has no position whatsoever about the truthfulness, validity and scope of this patent. The patentee has assured the issuing authority of this document that he is willing to work with any applicant on terms and conditions reasonably non-discriminatory Patent licensing negotiations. The patent holder's statement has been filed with the issuing authority of this document. Related information is available through the following link Department obtained. 1.PCT/CN2013/83030 "Beacon frame transmission method and apparatus". Contact. Wang Hao Contact .010-59691000 [email protected] 2.PCT/CN2014/081687 "Interference coordination method, apparatus and system" Contact. Wang Hao Contact .010-59691000 [email protected] Please note that in addition to the above patents, some of the contents of this document may still involve patents. The issuing agencies of this document are not responsible for identifying these specializations Lee's responsibility. Information technology - Telecommunications and information exchange between systems LAN and MAN super fast wireless personal area network Media Access Control and Physical Layer Specifications

1 Scope

This standard specifies the range of 59GHz ~ 64GHz band, fixed, handheld and mobile site equipment short-range wireless connection Media Access Control and Physical Layer Requirements. This standard applies to 59GHz ~ 64GHz band equipment design and development.

2 Normative references

The following documents for the application of this document is essential. For dated references, only the dated version applies to this article Pieces. For undated references, the latest edition (including all amendments) applies to this document. ISO /IEC /IEEE 8802.11-2012 Telecommunications and information exchange between information technology systems LAN and MAN Specific Requirements Part 11. Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications (Informationtechnolo- gy-Telecommunications and information exchange between systems-Localand metropolitanarea networks-Specificrequirements-Part 11.WirelessLAN medium accesscontrol (MAC) and physicallayer (PHY) specifications) IEEE802.1X-2004 LAN and metropolitan area network. Based on the network access control port (Localand Metropolitan Area Networks.Port-BasedNetworkAccessControl) IETFRFC1042-1988 Transmission of IP datagrams over IEEE802 networks (AStandardfortheTransmission ofIPDatagramsoverIEEE802Networks) ISO /IEC /IEEE8802-11.2012/Amd3.2014 Telecommunications and information exchange between information technology systems LAN And MAN Specific Requirements Part 11. Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications Supplement 3 (High Throughput Enhancements in 60GHz Band Using IEEstd802.11ad-2012) (Informationtechnology-Telecommu- nications and information exchange between systems-Local and national networks network-Specific requirements-Part 11.WirelessLANmediumaccesscontrol (MAC) andphysicallayer (PHY) specifi- cations-AMENDMENT3.Enhancementsforveryhighthroughputinthe60GHzband (adoptionof IEEEStd802.11ad-2012)) ITUREC0.150 digital transmission equipment performance testing equipment General requirements (generalrequirementsforinstrumenta- tionforperformancemeasurementsondigitaltransmissionequipment) 3 Terms, definitions and abbreviations 3.1 Terms and definitions ISO /IEC /IEEE8802.11-2012 as defined in the following terms and definitions apply to this document. 3.1.1 Access point An entity that contains one site (STA) and provides distributed services to related STAs over wireless media.