ENHANCED LINE-OF-SIGHT COMMUNICATIONS WITH ANALOG MULTI-PATH BEAMFORMING

Organization Name

QUALCOMM Incorporated

Inventor(s)

Juergen Cezanne of Ocean Township NJ (US)

Meilong Jiang of Westfield NJ (US)

Ahmed Bedewy of Hillsborough NJ (US)

Ashwin Sampath of Skillman NJ (US)

Ori Shental of Marlboro NJ (US)

Tianyang Bai of Somerville NJ (US)

Ozge Koymen of Princeton NJ (US)

Junyi Li of Fairless Hills PA (US)

ENHANCED LINE-OF-SIGHT COMMUNICATIONS WITH ANALOG MULTI-PATH BEAMFORMING - A simplified explanation of the abstract

This abstract first appeared for US patent application 18063964 titled 'ENHANCED LINE-OF-SIGHT COMMUNICATIONS WITH ANALOG MULTI-PATH BEAMFORMING

Simplified Explanation

The patent application describes methods, systems, and devices for wireless communications that support enhanced line-of-sight (LOS) communications with analog multi-path beamforming. It involves transmitting signaling in different beamforming directions simultaneously to improve communication quality.

• Wireless devices can transmit signals in specific beamforming directions simultaneously.
• The technology enhances communication in LOS and indirect LOS modes.
• It allows for the reception of multiple downlink messages in different beamforming directions at the same time.

Key Features and Innovation

• Capability of transmitting signals in multiple beamforming directions simultaneously.
• Support for LOS and indirect LOS modes for improved communication quality.
• Use of analog multi-path beamforming to enhance wireless communications.

Potential Applications

This technology can be applied in:

• 5G networks
• Internet of Things (IoT) devices
• Smart city infrastructure

Problems Solved

• Enhances communication quality in LOS scenarios.
• Allows for simultaneous reception of multiple downlink messages.
• Improves signal strength and reliability in wireless communications.

Benefits

• Enhanced communication performance in LOS environments.
• Increased data throughput and reliability.
• Improved user experience in wireless networks.

Commercial Applications

• Telecom companies can use this technology to improve network performance.
• IoT device manufacturers can enhance connectivity in smart devices.
• Military and defense sectors can benefit from improved wireless communication capabilities.

Prior Art

Readers interested in prior art related to this technology can explore research papers on analog beamforming in wireless communications and LOS communication techniques.

Frequently Updated Research

Stay updated on advancements in analog beamforming technology and LOS communication techniques to understand the latest developments in wireless communications.

Questions about Wireless Communications with Analog Multi-Path Beamforming

How does analog multi-path beamforming improve wireless communication quality?

Analog multi-path beamforming allows for the transmission of signals in multiple directions simultaneously, enhancing signal strength and reliability in wireless communications.

What are the potential applications of enhanced line-of-sight communications in different industries?

Enhanced line-of-sight communications can benefit industries such as telecommunications, IoT, and defense by improving network performance and connectivity in various applications.

Original Abstract Submitted

Methods, systems, and devices for wireless communications supporting techniques for enhanced line-of-sight (LOS) communications with analog multi-path beamforming are described. A first wireless device may receive, from a second wireless device, an indication of a capability of the second wireless device to concurrently transmit first signaling in a first analog beamforming direction using a first transmission configuration indicator (TCI) state corresponding to a LOS mode, and second signaling in a second analog beamforming direction using a second TCI state corresponding to an indirect LOS mode. The first wireless device may then receive, from the second wireless device, a first downlink message in the first analog beamforming direction using the first TCI state concurrently with a second downlink message in the second analog beamforming direction using the second TCI state.