PASSIVE BEAMFORMING FOR WI-FI

Organization Name

qualcomm incorporated

Inventor(s)

Venkatesh Bhat of Bangalore (IN)

Manikandan Chandrasekar of Bangalore (IN)

Raj Kumar Krishna Kumar of Bangalore (IN)

PASSIVE BEAMFORMING FOR WI-FI - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240250744 titled 'PASSIVE BEAMFORMING FOR WI-FI

Simplified Explanation

The patent application describes methods, systems, and devices for wireless communications, specifically focusing on passive beamforming for Wi-Fi. It details how wireless devices can use passive beamforming techniques to optimize communication.

• Passive beamforming techniques for Wi-Fi communication
• Identifying transmission and receive sectors for improved communication
• Use of directional transmission sectors for beacon transmission
• Selection of transmission and receive sectors based on received beacons
• Enhanced communication efficiency between wireless devices

Key Features and Innovation

• Passive beamforming for Wi-Fi communication
• Identification of transmission and receive sectors for optimized communication
• Use of directional transmission sectors for beacon transmission
• Selection of transmission and receive sectors based on received beacons
• Improved communication efficiency between wireless devices

Potential Applications

The technology can be applied in various wireless communication scenarios, such as:

• Home Wi-Fi networks
• Office environments
• Public Wi-Fi hotspots
• Industrial IoT applications
• Smart city infrastructure

Problems Solved

The technology addresses specific challenges in wireless communication, including:

• Signal interference
• Limited bandwidth utilization
• Inefficient communication protocols
• Poor network coverage
• Data transmission delays

Benefits

• Enhanced communication reliability
• Improved data transfer speeds
• Optimal bandwidth utilization
• Reduced signal interference
• Seamless connectivity between devices

Commercial Applications

Title: Passive Beamforming Technology for Enhanced Wireless Communication This technology can be utilized in various commercial applications, such as:

• Networking equipment manufacturing
• Telecommunication companies
• Smart home device manufacturers
• IoT solution providers
• Wireless service providers

Prior Art

Readers interested in prior art related to this technology can explore research papers, patents, and industry publications on passive beamforming, Wi-Fi communication optimization, and wireless networking technologies.

Frequently Updated Research

Stay updated on the latest advancements in passive beamforming technology, Wi-Fi communication optimization, and wireless networking protocols to ensure the implementation of cutting-edge solutions in wireless communication systems.

Questions about Passive Beamforming Technology

What are the key benefits of passive beamforming for Wi-Fi communication?

Passive beamforming enhances communication reliability, improves data transfer speeds, optimizes bandwidth utilization, reduces signal interference, and ensures seamless connectivity between devices.

How does passive beamforming technology address challenges in wireless communication?

Passive beamforming technology mitigates signal interference, maximizes bandwidth utilization, optimizes communication protocols, extends network coverage, and minimizes data transmission delays.

Original Abstract Submitted

methods, systems, and devices for wireless communications are described. techniques described herein provide for passive beamforming for wi-fi. a first wireless device communicating in an active session via a first bandwidth with a second wireless device may use a passive beamforming technique to identify a transmission sector of the second wireless device and/or a receive sector for communications on a second bandwidth, while the first wireless device is in an inactive session state for the second bandwidth. the second wireless device may transmit beacons in the second bandwidth via directional transmission sectors while the first wireless device is in the inactive session state for the second bandwidth. the first wireless device may receive the beacons and may select a transmission sector based on the beacons. the first wireless device may indicate the selected transmission sector to the second wireless device. the first wireless device may select a receive sector based on the beacons.