METHOD AND DEVICE FOR HANDOVER IN AN EFB-BASED NON-TERRESTRIAL NETWORK

Organization Name

Hyundai Motor Company

Inventor(s)

Young Kil Suh of Hwaseong-si (KR)

Gene Back Hahn of Hwaseong-si (KR)

Ui Hyun Hong of Hwaseong-si (KR)

Duk Kyung Kim of Seoul (KR)

METHOD AND DEVICE FOR HANDOVER IN AN EFB-BASED NON-TERRESTRIAL NETWORK - A simplified explanation of the abstract

This abstract first appeared for US patent application 18405492 titled 'METHOD AND DEVICE FOR HANDOVER IN AN EFB-BASED NON-TERRESTRIAL NETWORK

The abstract describes a method and device for handover in a non-terrestrial network based on an EFB (Electronic Flight Bag) system, specifically in a satellite cell environment.

• Connection configuration procedure with a UE (User Equipment) is performed in the first cell of a satellite.
• The method involves decreasing the cell service timer value after the connection configuration, based on a decrement interval.
• When the cell service timer falls below a threshold, a handover procedure is triggered.

Potential Applications: - Satellite communication networks - Aerospace industry - Telecommunications

Problems Solved: - Efficient handover management in non-terrestrial networks - Seamless communication services in satellite cells

Benefits: - Improved network reliability - Enhanced user experience in satellite communication - Optimal utilization of resources in non-terrestrial environments

Commercial Applications: Title: "Enhanced Handover Management in Satellite Communication Networks" This technology can be utilized by satellite communication providers, aerospace companies, and telecommunication firms to enhance handover procedures in non-terrestrial networks, improving overall network performance and user experience.

Questions about the technology: 1. How does this method improve handover efficiency in satellite communication networks? - This method optimizes handover procedures by dynamically adjusting the cell service timer based on network conditions, ensuring seamless communication services for users. 2. What are the key advantages of implementing this handover method in non-terrestrial networks? - The main advantages include improved network reliability, enhanced user experience, and efficient resource utilization in satellite communication environments.

Original Abstract Submitted

A method and a device for handover in an EFB-based non-terrestrial network are provided. The method may be performed in a first cell of a first satellite. The method includes performing a connection configuration procedure with a UE. The method also includes, after performing the connection configuration procedure, decreasing a value of a cell service timer, that indicates the time at which a communication service can be provided in the first cell, according to a decrement interval. The method additionally includes, in response to determining that the cell service timer is below a threshold, triggering a handover procedure.