TECHNIQUES FOR CONTINUOUS BEAM SCANNING FOR INTEGRATED LENS ANTENNAS

Organization Name

QUALCOMM Incorporated

Inventor(s)

Ronen Shaked of Kfar Saba (IL)

Danlu Zhang of San Diego CA (US)

TECHNIQUES FOR CONTINUOUS BEAM SCANNING FOR INTEGRATED LENS ANTENNAS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240305341 titled 'TECHNIQUES FOR CONTINUOUS BEAM SCANNING FOR INTEGRATED LENS ANTENNAS

The abstract describes methods, systems, and devices for wireless communications, focusing on generating beamforming weights for a lens antenna to distribute signals within a target coverage area of a cell.

• Network entity generates beamforming weights for a lens antenna based on a convergence location corresponding to the target coverage area.
• Convergence location is determined by the target coverage area and parameters of the lens antenna.
• Signals are transmitted to user equipment using the beamforming weights to spatially distribute the signal within the target coverage area.

Potential Applications: - Improved wireless communication in cellular networks - Enhanced coverage and signal distribution within specific areas - Optimization of antenna performance for better user experience

Problems Solved: - Ensuring efficient signal distribution within target coverage areas - Enhancing network performance and user connectivity - Addressing challenges in optimizing antenna configurations for specific coverage needs

Benefits: - Increased network efficiency and capacity - Improved user experience with better signal quality - Enhanced coverage and connectivity in targeted areas

Commercial Applications: Title: "Enhancing Wireless Communication Through Targeted Signal Distribution" This technology can be applied in telecommunications, IoT networks, and smart city infrastructure to optimize signal distribution and coverage in specific areas, improving overall network performance and user experience.

Prior Art: Readers can explore prior research on beamforming technologies, lens antennas, and wireless communication systems to understand the evolution of this innovation and its unique contributions to the field.

Frequently Updated Research: Stay informed about advancements in beamforming techniques, antenna design, and wireless communication standards to leverage the latest developments in optimizing signal distribution and coverage in cellular networks.

Questions about Wireless Communication Optimization: 1. How does this technology improve signal distribution within target coverage areas? - This technology utilizes beamforming weights to spatially distribute signals within specific areas, enhancing coverage and connectivity for users. 2. What are the key parameters considered in determining the convergence location for beamforming in lens antennas? - The convergence location is based on the target coverage area and specific parameters of the lens antenna, ensuring optimal signal distribution within the designated area.

Original Abstract Submitted

methods, systems, and devices for wireless communications are described. a network entity may generate a set of beamforming weights for a lens antenna associated with the network entity. further, the network entity may generate the set of beamforming weights based on a convergence location corresponding to a target coverage area of a cell supported by the network entity. the convergence location may be based on the target coverage area and on one or more parameters of the lens antenna. as such, the network entity may transmit, via a set of antenna elements of the lens antenna, a signal to a user equipment (ue) in accordance with the set of beamforming weights for the lens antenna such that the signal may be spatially distributed within the target coverage area of the cell.