A METHOD AND SYSTEM FOR REPLACEMENT OF ENERGY AND CAPACITY-CONSTRAINED 6G AERIAL CELLS

Organization Name

SAMSUNG ELECTRONICS CO., LTD.

Inventor(s)

TUSHAR Vrind of Bengaluru (IN)

LALIT KUMAR Pathak of Bengaluru (IN)

SAMIR KUMAR Mishra of Bengaluru (IN)

DEBABRATA Das of Bengaluru (IN)

A METHOD AND SYSTEM FOR REPLACEMENT OF ENERGY AND CAPACITY-CONSTRAINED 6G AERIAL CELLS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18553542 titled 'A METHOD AND SYSTEM FOR REPLACEMENT OF ENERGY AND CAPACITY-CONSTRAINED 6G AERIAL CELLS

Simplified Explanation

The patent application describes a method for replacing a source aerial cell with a target aerial cell in a communication network. This involves transferring link parameters, notifying the user equipment (UE) of the change, and coordinating a smooth transition of communication operations.

• Receiving a transfer request from the target aerial cell
• Transmitting link parameters to the target aerial cell
• Notifying the UE of the change in PCID
• Sending a cell switching request to the target aerial cell with positioning information
• Coordinating a switchover of communication operations with the UE and terrestrial cells served by the source aerial cell

Potential Applications

This technology could be applied in cellular networks to improve network efficiency and seamless handovers between aerial cells.

Problems Solved

The method addresses the challenge of replacing a source aerial cell with a target aerial cell while ensuring uninterrupted communication for the UE and maintaining network connectivity.

Benefits

- Enhanced network reliability - Improved communication handover process - Seamless transition for users

Commercial Applications

Title: Aerial Cell Replacement Technology in Cellular Networks This technology could be utilized by telecommunications companies to enhance network performance and provide a better user experience. It could also be integrated into 5G networks to optimize aerial cell management.

Prior Art

Further research can be conducted in the field of aerial cell technology and cellular network optimization to explore similar methods and advancements.

Frequently Updated Research

Researchers are constantly working on improving aerial cell technology and network management systems to meet the increasing demands of mobile communication.

Questions about Aerial Cell Replacement Technology

What are the key challenges in implementing aerial cell replacement technology in cellular networks?

Implementing aerial cell replacement technology involves coordinating various network parameters and ensuring a seamless transition for users. Challenges may include compatibility issues, network disruptions, and user experience during the handover process.

How does aerial cell replacement technology impact network efficiency and user experience?

Aerial cell replacement technology can enhance network efficiency by optimizing communication handovers and improving network management. This, in turn, can provide users with a seamless and uninterrupted communication experience.

Original Abstract Submitted

A method of replacing a source aerial cell with a target aerial cell includes receiving a transfer request from the target aerial cell to transfer link related parameters between the source aerial cell and UE and link related parameters between the source aerial cell and a core network. The method further includes transmitting each of the link related parameters to the target aerial cell in response to the received transfer request and further notifying, via a notification message, a change in PCID of the source aerial cell to the UE. The method furthermore includes transmitting a cell switching request to the target aerial cell along with positioning information of the source aerial cell for a switchover of a communication operation with the UE and terrestrial cells served by the source aerial cell, and thereafter the target aerial cell moves to a hovering position indicated by the transmitted positioning information.