DYNAMIC REMOTE CONFIGURATION OF A RECONFIGURABLE INTELLIGENT SURFACES COMPONENT

Organization Name

Verizaon Patent and Licensing Inc.

Inventor(s)

Donna Polehn of Mercer Island WA (US)

Corey J. Christopherson of Bainbridge Island WA (US)

DYNAMIC REMOTE CONFIGURATION OF A RECONFIGURABLE INTELLIGENT SURFACES COMPONENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240049026 titled 'DYNAMIC REMOTE CONFIGURATION OF A RECONFIGURABLE INTELLIGENT SURFACES COMPONENT

Simplified Explanation

The abstract describes a patent application for dynamic remote configuration of a reconfigurable intelligent surfaces component. The innovation involves a controller hosted remotely in a cloud computing environment, which receives characteristics of signals transmitted through the reconfigurable intelligent surfaces network. The controller evaluates these characteristics to generate tuning parameter values for the cells of the reconfigurable intelligent surfaces component. It then transmits a control signal to modify the operation of the cells using the tuning parameter values.

• The patent application describes a system for dynamically configuring a reconfigurable intelligent surfaces component.
• The system includes a controller hosted in a cloud computing environment.
• The controller receives characteristics of signals transmitted through the reconfigurable intelligent surfaces network.
• The characteristics can include signal degradation information from a base station and/or user equipment.
• The controller evaluates these characteristics to generate tuning parameter values.
• The tuning parameter values are applied to the cells of the reconfigurable intelligent surfaces component.
• The controller transmits a control signal over a communication channel to modify the operation of the cells using the tuning parameter values.

Potential Applications:

• Wireless communication networks: This technology can be applied to improve the performance and efficiency of wireless communication networks by dynamically configuring the reconfigurable intelligent surfaces component based on signal characteristics.
• Internet of Things (IoT): The innovation can be used in IoT applications to optimize signal transmission and reception between devices, enhancing connectivity and reliability.
• Smart cities: By implementing this technology in smart city infrastructure, it can enable efficient and adaptive communication systems, improving connectivity and network performance.

Problems Solved:

• Signal degradation: The technology addresses the problem of signal degradation by dynamically configuring the reconfigurable intelligent surfaces component based on signal characteristics, mitigating issues such as interference and attenuation.
• Inefficient network operation: By optimizing the operation of the cells in the reconfigurable intelligent surfaces component, the technology solves the problem of inefficient network operation, leading to improved performance and resource utilization.

Benefits:

• Enhanced signal quality: The dynamic configuration of the reconfigurable intelligent surfaces component based on signal characteristics improves signal quality, leading to better communication performance and reliability.
• Increased network efficiency: By optimizing the operation of the cells, the technology improves network efficiency, allowing for better resource allocation and utilization.
• Flexibility and adaptability: The remote configuration capability enables the system to adapt to changing network conditions and optimize performance accordingly.

Original Abstract Submitted

one or more computing devices, systems, and/or methods for dynamic remote configuration of a reconfigurable intelligent surfaces component are provided. a controller is hosted remote to a reconfigurable intelligent surfaces network, such as within a cloud computing environment. the controller receives characteristics (e.g., signal degradation information from a base station and/or user equipment) of signals transmitted through the reconfigurable intelligent surfaces network between devices. the controller evaluates the characteristics to generate tuning parameter values to apply to cells of the reconfigurable intelligent surfaces component of the reconfigurable intelligent surfaces network. the controller transmits a control signal over a communication channel to the reconfigurable intelligent surfaces component for modifying operation of the cells using the tuning parameter values.