RADIO ACCESS NETWORK INTELLIGENT CONTROLLER SELECTING CELL FOR PERFORMING COORDINATED MULTI-POINT TRANSMISSION/RECEPTION, AND OPERATION METHOD THEREOF

Organization Name

SAMSUNG ELECTRONICS CO., LTD.

Inventor(s)

Deokhui Lee of Suwon-si (KR)

Hyunsuk Choi of Suwon-si (KR)

Myounghwan Lee of Suwon-si (KR)

RADIO ACCESS NETWORK INTELLIGENT CONTROLLER SELECTING CELL FOR PERFORMING COORDINATED MULTI-POINT TRANSMISSION/RECEPTION, AND OPERATION METHOD THEREOF - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240297683 titled 'RADIO ACCESS NETWORK INTELLIGENT CONTROLLER SELECTING CELL FOR PERFORMING COORDINATED MULTI-POINT TRANSMISSION/RECEPTION, AND OPERATION METHOD THEREOF

The method described in the abstract involves operating a network by obtaining information on signal strength and beamforming directions from multiple cells, determining candidate cells for coordinated multi-point (CoMP) operation, and selecting cells based on priority comparisons.

• Obtaining signal strength information from a cell connected to user equipment.
• Obtaining overlapping degrees between beamforming directions of transmission signals and synchronized signal blocks.
• Determining candidate cells for CoMP based on signal strength and overlapping degrees.
• Selecting cells for CoMP based on priority comparisons.

Potential Applications: - This technology can be applied in cellular networks to improve signal reception and data transmission. - It can enhance network efficiency by coordinating multiple cells for better coverage and capacity.

Problems Solved: - Addressing signal interference and coverage issues in cellular networks. - Optimizing network performance by selecting the most suitable cells for coordinated operation.

Benefits: - Improved signal quality and coverage for users. - Enhanced network capacity and efficiency. - Better overall performance and user experience in cellular communication.

Commercial Applications: Title: Enhanced Cellular Network Optimization Technology This technology can be utilized by telecom companies to enhance their network performance, provide better service to customers, and optimize network resources effectively. It can lead to improved customer satisfaction, reduced network congestion, and increased data speeds, ultimately benefiting both the service providers and end-users.

Prior Art: Researchers can explore prior studies on CoMP operation in cellular networks, beamforming technologies, and signal optimization techniques to understand the background of this innovation.

Frequently Updated Research: Researchers in the field of wireless communication and network optimization continuously explore new methods to improve network performance, enhance signal quality, and optimize resource allocation in cellular networks. Stay updated on the latest advancements in CoMP technologies and signal processing algorithms to leverage the full potential of this innovation.

Questions about Coordinated Multi-Point (CoMP): 1. What are the key advantages of CoMP operation in cellular networks? CoMP operation can improve network coverage, capacity, and overall performance by coordinating multiple cells to serve a user equipment, leading to better signal reception and data transmission.

2. How does CoMP technology contribute to reducing signal interference in dense network environments? CoMP allows for better coordination between cells, reducing interference and improving signal quality for users in areas with high network congestion.

Original Abstract Submitted

according to various embodiments, a method of operating a network may comprise: obtaining, from a first cell from among a plurality of cells, information relating to the reception strength of a plurality of synchronized signal blocks (ssbs) from at least one cell from among the plurality of cells measured by first user equipment connected to the first cell, obtaining, from plurality of cells, the overlapping degrees between a first beamforming direction of a transmission signal for downlink traffic corresponding to a respective user equipment respectively connected to a respective cell among the plurality of cells and a plurality of second beamforming directions of a plurality of ssbs of the respective cell among the plurality of cells, determining, from the plurality of cells, a plurality of candidate cells for performing coordinated multi-point (comp) with respect to the first user equipment, based on the information relating to the reception strength and the overlapping degrees, and determining at least one cell for performing comp with respect to the first user equipment from among the plurality of candidate cells based on a comparison result of priorities set for plurality of candidate cells, respectively.