NETWORK CONNECTION CONTROL SYSTEM AND METHOD

Organization Name

Compal Electronics, Inc.

Inventor(s)

Dao-Wen Tang of Taipei City (TW)

Tsung-Hsuan Tsai of Taipei City (TW)

Yi-Ching Chen of Taipei City (TW)

NETWORK CONNECTION CONTROL SYSTEM AND METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240022987 titled 'NETWORK CONNECTION CONTROL SYSTEM AND METHOD

Simplified Explanation

The patent application describes a network connection control system and method. The system includes user equipment, base stations, a server, and a processing unit. Each base station has a connection range and is configured to connect user equipment within that range. The user equipment transmits network parameters to the server through the base station it is connected to. The server generates a qubo matrix based on the network parameters and sends it to the processing unit. The processing unit uses a quantum annealing algorithm to process the qubo matrix and obtain an optimized connection configuration for the user equipment and base stations. The server then receives the optimized connection configuration and adjusts the connection range of each base station accordingly to make the actual connection configuration identical to the optimized one.

• The system includes user equipment, base stations, a server, and a processing unit.
• Each base station has a connection range and connects user equipment within that range.
• User equipment transmits network parameters to the server through the connected base station.
• The server generates a qubo matrix based on the network parameters.
• The qubo matrix is sent to the processing unit.
• The processing unit uses a quantum annealing algorithm to process the qubo matrix.
• The processing unit obtains an optimized connection configuration for the user equipment and base stations.
• The server receives the optimized connection configuration and adjusts the connection range of each base station accordingly.
• The goal is to make the actual connection configuration identical to the optimized one.

Potential applications of this technology:

• Optimizing network connection configurations in telecommunications systems.
• Improving efficiency and performance of wireless networks.
• Enhancing connectivity and coverage in large-scale network deployments.

Problems solved by this technology:

• Inefficient network connection configurations.
• Limited coverage and connectivity in wireless networks.
• Difficulty in optimizing network parameters manually.

Benefits of this technology:

• Improved network performance and efficiency.
• Enhanced connectivity and coverage for user equipment.
• Automated optimization of network connection configurations.
• Potential for cost savings and resource optimization in network deployments.

Original Abstract Submitted

a network connection control system and method is provided. the network connection control system includes user equipments, base stations, a server and a processing unit. each base station has a connection range and is configured to connect the user equipment located within the connection range. each user equipment transmits a network parameter between it and every base station through the base station connected therewith to the server. the server generates a qubo matrix according to all the network parameters and outputs the qubo matrix to the processing unit. the processing unit processes the qubo matrix based on a quantum annealing algorithm to obtain an optimized connection configuration of the user equipments and base stations. the server receives the optimized connection configuration and controls the connection range of each base station accordingly for making an actual connection configuration of the user equipments and base stations identical with the optimized connection configuration.