18473654. DEVICE AND METHOD FOR FRONTHAUL TRANSMISSION IN WIRELESS COMMUNICATION SYSTEM simplified abstract (Samsung Electronics Co., Ltd.)
DEVICE AND METHOD FOR FRONTHAUL TRANSMISSION IN WIRELESS COMMUNICATION SYSTEM
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DEVICE AND METHOD FOR FRONTHAUL TRANSMISSION IN WIRELESS COMMUNICATION SYSTEM - A simplified explanation of the abstract
This abstract first appeared for US patent application 18473654 titled 'DEVICE AND METHOD FOR FRONTHAUL TRANSMISSION IN WIRELESS COMMUNICATION SYSTEM
Simplified Explanation
The present disclosure is about a communication system that supports higher data rates beyond the 4G LTE system, specifically for 5G communication. The system involves a distributed unit (DU) that generates a control plane (C-plane) message for multiple ports. This message includes section information and a section extension. The C-plane message is then transmitted to a radio unit (RU) via a specific port of the multiple ports. The section information includes a beam identifier (ID), while the section extension includes beam group type information and port information.
- The patent application describes a method for transmitting C-plane messages in a 5G communication system.
- The method involves generating C-plane messages for multiple ports, including section information and a section extension.
- The section information includes a beam identifier (ID), which helps identify specific beams in the communication system.
- The section extension includes beam group type information, indicating the type of beam grouping used in the system.
- The section extension also includes port information, indicating the total number of extended antenna-carrier (eAxC) ports indicated by the section extension.
Potential applications of this technology:
- This technology can be applied in 5G communication systems to support higher data rates and improve overall network performance.
- It can be used in various industries that require high-speed and reliable communication, such as autonomous vehicles, smart cities, and industrial automation.
- The technology can enable faster and more efficient data transmission, leading to improved user experiences in areas like video streaming, online gaming, and virtual reality.
Problems solved by this technology:
- The technology addresses the need for higher data rates and improved network performance in 5G communication systems.
- It provides a method for transmitting control plane messages efficiently and accurately, ensuring reliable communication between distributed units and radio units.
- The inclusion of beam identifier and beam group type information helps optimize beamforming and beam management in the system.
Benefits of this technology:
- The technology enables faster and more reliable communication, supporting higher data rates and reducing latency in 5G networks.
- It improves network efficiency by optimizing beamforming and beam management, leading to better overall network performance.
- The method described in the patent application allows for flexible and scalable communication systems, accommodating various beam group types and extended antenna-carrier ports.
Original Abstract Submitted
The present disclosure relates to a pre-5-Generation (5G) or 5G communication system to be provided for supporting higher data rates Beyond 4-Generation (4G) communication system such as Long Term Evolution (LTE). According to embodiments, a method performed by a distributed unit (DU), the method comprises generating a control plane (C-plane) message for multiple ports, the C-plane message including section information and a section extension; and transmitting the C-plane message to a radio unit (RU) via a specific port of the multiple ports. The section information includes information on a beam identifier (ID). The section extension includes beam group type information for indicating a type of beam grouping, and port information for indicating a total number of one or more extended antenna-carrier (eAxC) ports indicated by the section extension.
