LENS COMMUNICATION WITH MULTIPLE ANTENNA ARRAYS

Organization Name

QUALCOMM Incorporated

Inventor(s)

Idan Michael Horn of Hod Hasharon (IL)

Yehonatan Dallal of Kfar Saba (IL)

Shay Landis of Hod Hasharon (IL)

Assaf Touboul of Netanya (IL)

LENS COMMUNICATION WITH MULTIPLE ANTENNA ARRAYS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18485166 titled 'LENS COMMUNICATION WITH MULTIPLE ANTENNA ARRAYS

Simplified Explanation

Methods, systems, and devices for wireless communications are described in this patent application. The communications device is capable of transmitting a first signal from a first antenna array through a lens in a specific direction. The energy of a portion of the first signal is determined to be below a threshold based on the position of a second antenna array of the device. This portion of the first signal corresponds to a reflection of the first signal that overlaps with the position of the second antenna array. Simultaneously, the communications device can receive a second signal from another direction using the second antenna array, which is focused in the direction of the second antenna array based on the lens.

• The patent describes a communications device that can transmit signals in a specific direction using antenna arrays and a lens.
• It determines the energy of a portion of the transmitted signal based on the position of another antenna array.
• The device can receive signals from another direction using the second antenna array, which is focused using the lens.

Potential Applications

This technology has potential applications in various fields, including:

• Wireless communication systems: The ability to transmit signals in a specific direction can improve the efficiency and reliability of wireless communication systems.
• Satellite communication: By focusing signals in specific directions, this technology can enhance satellite communication capabilities.
• Radar systems: The ability to transmit and receive signals in specific directions can improve the accuracy and range of radar systems.

Problems Solved

The technology described in this patent application solves several problems, including:

• Signal interference: By determining the energy of a portion of the transmitted signal and adjusting the direction of transmission, interference caused by reflections can be minimized.
• Signal reception from specific directions: The use of antenna arrays and a lens allows for focused reception of signals from desired directions, reducing noise and improving signal quality.
• Efficient use of resources: By optimizing the transmission and reception of signals, this technology enables more efficient use of wireless communication resources.

Benefits

The use of this technology offers several benefits, such as:

• Improved signal quality: By minimizing interference and focusing signals, the technology enhances the quality and reliability of wireless communications.
• Increased range: The ability to transmit and receive signals in specific directions extends the range of wireless communication systems.
• Enhanced efficiency: By optimizing the use of resources, this technology improves the efficiency of wireless communication networks, leading to better utilization of available bandwidth.

Original Abstract Submitted

Methods, systems, and devices for wireless communications are described. A communications device may transmit a first signal. The first signal may be transmitted from a first antenna array of the communications device through a lens of the communications device in a direction. An energy of a portion of the first signal may be below a threshold based on a position of a second antenna array of the communications device. The portion of the first signal may correspond to a portion of a reflection of the first signal that overlaps with the position of the second antenna array. The communications device may concurrently receive, at the second antenna array, a second signal originating from another direction, where the second signal may be focused in the direction of the second antenna array based on the lens.