GEOLOCATION-BASED BEAMFORMING FOR DRONE COMMUNICATION

Organization Name

TaiSync Technology, Inc.

Inventor(s)

Yan Li of San Jose CA (US)

GEOLOCATION-BASED BEAMFORMING FOR DRONE COMMUNICATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240356598 titled 'GEOLOCATION-BASED BEAMFORMING FOR DRONE COMMUNICATION

Simplified Explanation

The patent application describes a system and method for wireless communication in UAV systems using geolocation-based beamforming. The antenna array on the transmit device is calibrated to compensate for random phase errors, and the system uses the geolocations of the UAV and its remote control, as well as the rotational position of the transmit device, to determine a beamforming direction.

• The antenna array on the transmit device is calibrated to compensate for random phase errors.
• Geolocations of the UAV and its remote control, along with the rotational position of the transmit device, are used to determine a beamforming direction.
• A beamforming vector is selected based on the beamforming direction.
• The beamformer on the transmit device then beamforms the antenna array to transmit data or information to the receive device in the beamforming direction.

Potential Applications

This technology can be applied in various UAV systems for improved wireless communication, especially in scenarios where precise beamforming is required for data transmission.

Problems Solved

This technology addresses the challenges of random phase errors in antenna arrays and the need for accurate beamforming in UAV systems for efficient communication.

Benefits

The system and method described in the patent application enable precise and efficient wireless communication in UAV systems, improving data transmission reliability and performance.

Commercial Applications

Title: Geolocation-Based Beamforming Technology for UAV Communication This technology can be utilized in commercial UAV applications such as surveillance, monitoring, mapping, and communication in remote areas. It can also have implications in the defense sector for military UAV operations.

Prior Art

For prior art related to geolocation-based beamforming in UAV systems, researchers can explore patents and publications in the fields of wireless communication, UAV technology, and antenna design.

Frequently Updated Research

Researchers in the field of UAV communication and wireless technology may be conducting ongoing studies on improving beamforming techniques for UAV systems. Stay updated on relevant publications and conferences in these areas.

Questions about Geolocation-Based Beamforming Technology for UAV Communication

How does geolocation-based beamforming improve wireless communication in UAV systems?

Geolocation-based beamforming enhances wireless communication in UAV systems by enabling precise directional transmission of data, reducing interference, and improving signal strength.

What are the key considerations for implementing geolocation-based beamforming in UAV systems?

Key considerations for implementing geolocation-based beamforming in UAV systems include accurate geolocation data, calibration of antenna arrays, and real-time adjustment of beamforming direction based on UAV and transmit device positions.

Original Abstract Submitted

system and method of wireless communication in uav systems that uses geolocation-based beamforming. the antenna array on the transmit device is first calibrated to compensate the random phase errors of the antenna. during operation, the geolocations of the uav and its remote control and the rotational position of the transmit device are used to determine a beamforming direction. a beamforming vector is selected based on the beamforming direction. the beamformer on the transmit device then beamforms the antenna array such that data or other information can be transmitted to the receive device in the beamforming direction.