Wireless LAN Development Progress Analysis Report 2022: Analyze Recently Introduced or Still in Development Advanced Wi-Fi Technologies -…

Dublin, May 13, 2022 (GLOBE NEWSWIRE) -- The "Progress in Wireless LAN Development" report has been added to ResearchAndMarkets.com's offering.

The report's goal is to analyze recently introduced or still in the development advanced Wi-Fi technologies, their applications, and marketplace. It also surveys related industries.

This report addresses recent or planned enhancements to one of the most established and powerful wireless technology - Wi-Fi. Originated in the 20s century, this WLAN family belongs to a very small group of communications technologies that do not getting obsolete with time.

The family continues to grow adding new members that bring WLAN to the forefront of today innovations in communications with multiple applications and pushing up the limits in performance. Wi-Fi will support and strengthen 5G networks making them more flexible and efficient.

The report details technical and marketing specifics of these types of WLAN technologies as well as surveys their industries and shows that Wi-Fi 6 is ready to meet some 5G requirements; with incoming Wi-Fi 7 bringing even wider spectrum of advanced characteristics.

The report was developed for technical and managerial personnel working on the Wi-Fi-related projects to give them better understanding specifics of this family technologies and markets.

The report also includes the survey of Wi-Fi technologies related patents for 2018-2022.In particular, it addresses such developments as:

Key Topics Covered:

1.0 Introduction1.1 Wi-Fi Alliance1.2 Elements1.3 Legacy Wi-Fi1.3.1 802.11b1.3.1.1 Characteristics1.3.1.2 Physical Layer1.3.1.3 Data Link Layer1.3.2 Family - First Members1.3.2.1 802.11a1.3.2.2 802.11g1.3.3 WI-Fi Generations1.4 Report Scope1.5 Details1.6 Research Methodology1.7 Target Audience

2.0 IEEE 802.11n (Wi-Fi 4)2.1 Process2.1.1 Environment2.1.2 Draft v. 1.02.1.3 Draft v. 2.02.1.4 Further Developments and IEEE Approval2.2 Certification Process2.3 802.11n Technology Specifics2.3.1 Advances2.3.1.1 MIMO2.3.1.2 Spatial Division Multiplexing2.3.1.3 OFDM2.3.1.4 Channel Bonding2.3.1.5 Packet Aggregation2.3.2 PHY and MAC2.4 Major Features: Summary2.4.1 Specifics2.4.2 Channel Bandwidth2.4.3 Backward Compatibility2.4.4 Adaptation2.4.5 Security2.4.6 Enhancements: Summary2.5 Benefits and Applications2.5.1 Benefits2.5.2 Applications2.6 Market2.6.1 Drivers2.6.2 Market Forecast2.6.2.1 Model Assumptions2.6.2.2 Forecast2.7 Industry

3.0 IEEE 802.11ac (Wi-Fi 5)3.1 General - Improving 802.11n Characteristics3.2 Approval3.3 Major Features3.4 Benefits3.5 Usage Models3.6 PHY3.7 MAC Improvements3.8 Waves3.9 MIMO and 802.11ac Standard3.9.1 Comparison3.10 Industry

3.11 Market

4.0 802.11ax (Wi-Fi 6)4.1 Scope4.1.1 Initiation4.1.2 Structure4.1.3 Enhancements4.1.3.1 Role of MU MIMO4.2 Marketing Considerations4.3 Industry

4.4 Wi-Fi in 6 GHz Band - Wi-Fi 6E

5.0 60 GHz Wi-Fi5.1 Goal5.2 General5.3 60 GHz Band Spectrum Specifics5.3.1 Frequencies Allocation5.3.2 Oxygen Absorption5.4 Antenna5.5 Radiation Limitations at 60 GHz5.6 Combined Effect5.7 Progress in Chip Technology5.7.1 Challenges and Efforts5.7.2 Modulation5.8 Summary5.9 60 GHz WLAN5.9.1 Benefits and Issues5.9.2 WiGig Alliance5.9.2.1 Specification: 60 GHz Wi-Fi5.9.2.2 WiGig Protocol Adaption Layer Specifications5.9.2.3 The WiGig Bus Extension and WiGig Serial Extension Specification5.9.2.4 The WiGig Display Extension Specification5.9.2.5 Union5.9.3 IEEE 802.11ad - 60 GHz Wi-Fi5.9.3.1 Status5.9.3.2 Coexistence5.9.3.3 Scope5.9.3.4 Channelization5.9.3.5 PHY5.9.3.6 MAC5.9.3.7 Specifics3.9.3.8 Use Cases5.9.4 Industry

5.10 802.11ay - Next Generation 60 GHz Wi-Fi5.10.1 Purpose and Schedule5.10.2 Scope5.10.3 Details5.10.3.1 Channel Bonding and Aggregation5.10.3.2 IEEE 802.11ay Physical Layer5.10.4 Industry

5.10.5 60GHz Wi-Fi Market Considerations5.10.5.1 Market Drivers5.10.5.2 Usage Models5.10.5.3 Market Estimate

6.0 White-Fi6.1 White Spaces6.1.1 General6.1.2 Digital Revolution6.1.3 Factors6.1.4 FCC Activity6.1.4.1 Super Wi-Fi Hot Spots6.1.4.2 Role of Database6.1.4.3 Specifics6.1.4.3.1 TV Spectrum Utilization6.1.4.4 TVBD - Details6.1.4.5 First Network6.1.4.6 Use Cases6.1.4.7 Latest FCC Decisions6.2 Industry Activity - Dynamic Spectrum Alliance6.3 IEEE Contributions6.3.1 IEEE 802.11af6.3.1.1 General: Expectations - White-Fi6.3.1.2 Differences6.3.1.3 Benefits6.3.1.4 Specifics6.3.1.4.1 Methods6.3.1.4.2 Main Principles6.3.1.4.3 PHY6.3.1.5 Architecture6.3.1.6 Market6.3.1.7 Vendors

6.3.1.8 White Space Alliance

7.0 802.11ah (Wi-Fi HaLow)7.1 General7.2 Goal and Schedule7.3 Attributes7.4 Use Cases7.5 PHY7.5.1 Bandwidth7.5.2 Channelization7.5.3 Transmission Modes and MIMO7.6 MAC Layer7.7 Summary7.8 Vendors

8.0 IEEE 802.11p8.1 General8.2 Objectives and Status8.3 IEEE 802.11p - Major Features8.4 ETSI ITS-G5 - Major Features8.5 ASTM Contributions8.6 Industry

9.0 Wi-Fi Direct9.1 Overview9.2 Major Properties

10.0 Wi-Fi Aware

11.0 P802.11az11.1 General11.2 Details11.3 Benefits

12.0 P802.11be (Wi-Fi 7)12.1 Background12.2 Scope12.3 Schedule12.4 Candidate Features12.5 First demonstration

13.0 P802.11bd13.1 Title13.2 Preliminary Schedule13.3 Scope13.4 Demand for Project13.4.1 Current situation13.4.2 Enhanced DSRC13.4.3 PHY and MAC Summary

14.0 P802.11bb14.1 General14.2 Time Frame14.3 Scope

15.0 ConclusionsAttachment I: 802.11ah - related Patents Survey (2018-2022)Attachment II: 802.11ad - related Patents Survey (2018-2022)Attachment III: 802.11ax - related Patents Survey (2018-2022)Attachment IV: 802.11ay - related Patents Survey (2018-2022)Attachment V: 802.11af - related Patents Survey (2018-2022)Attachment VI: 802.11p - related Patents Survey (2018-2022)

For more information about this report visit https://www.researchandmarkets.com/r/6d7whp

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Wireless LAN Development Progress Analysis Report 2022: Analyze Recently Introduced or Still in Development Advanced Wi-Fi Technologies -...