MOBILITY MANAGEMENT SYSTEM AND MOBILITY MANAGEMENT METHOD OF A BASE STATION

Organization Name

samsung electronics co., ltd.

Inventor(s)

Jie Deng of Suzhou (CN)

MOBILITY MANAGEMENT SYSTEM AND MOBILITY MANAGEMENT METHOD OF A BASE STATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240323782 titled 'MOBILITY MANAGEMENT SYSTEM AND MOBILITY MANAGEMENT METHOD OF A BASE STATION

Simplified Explanation

The patent application describes a system and method for managing the mobility of a target terminal connected to a base station. It involves acquiring position data of the terminal, generating a moving track, determining the terminal's speed, and selecting a track model based on the matching degree of the moving track with the model.

Key Features and Innovation

• Acquiring position data of a connected terminal in a cell of a base station.
• Generating a moving track of the terminal and determining its speed.
• Selecting a track model based on the matching degree with the moving track.
• Predicting future position data of the terminal and updating the matching degree.
• Determining whether the terminal should be connected to another base station.

Potential Applications

This technology can be applied in:

• Telecommunications for efficient management of mobile devices.
• Transportation systems for tracking and monitoring vehicles.
• Location-based services for personalized user experiences.

Problems Solved

• Efficient management of mobile devices in a network.
• Accurate tracking and prediction of terminal movements.
• Seamless handover between base stations for uninterrupted connectivity.

Benefits

• Improved network efficiency and performance.
• Enhanced user experience with better connectivity.
• Optimized resource allocation for network operations.

Commercial Applications

Title: Enhanced Mobility Management System for Telecommunications Networks This technology can be utilized by telecommunications companies to enhance the management of mobile devices within their networks, leading to improved service quality and customer satisfaction. It can also be integrated into transportation systems for real-time tracking and monitoring of vehicles, optimizing fleet operations and logistics.

Prior Art

Further research can be conducted in the field of mobility management systems in telecommunications and transportation industries to explore existing technologies and innovations related to tracking and predicting the movements of connected devices.

Frequently Updated Research

Researchers are continuously exploring advancements in mobility management systems, focusing on enhancing predictive algorithms, optimizing network handover procedures, and improving the overall efficiency of connected device management.

Questions about Mobility Management System

How does the system predict future position data of the terminal?

The system predicts future position data by analyzing the terminal's moving track and updating the matching degree with the selected track model, allowing for accurate trajectory forecasting.

What are the potential implications of seamless handover between base stations?

Seamless handover between base stations ensures uninterrupted connectivity for the terminal, leading to a smooth transition between network cells and improved user experience.

Original Abstract Submitted

in a mobility management system and a mobility management method of a base station, position data of a connected target terminal in a cell of the base station is acquired and based thereon a moving track of the terminal is generated and the terminal's speed is determined. based on a matching degree of the moving track of the terminal with respect to at least one track model corresponding to the speed of the terminal, a track model is selected, for which the matching degree meets a first preset condition from among the at least one track model. an initial matching degree of the moving track of the terminal with respect to the specific track model is obtained; future position data of the terminal is predicted; the initial matching degree is updated; it is determined whether the terminal is to be connected to another base station.