METHOD AND APPARATUS FOR MEASURING QOE IN RRC INACTIVE MODE AND RRC IDLE MODE IN WIRELESS COMMUNICATION SYSTEM

Organization Name

samsung electronics co., ltd.

Inventor(s)

Seungbeom Jeong of Suwon-si (KR)

Sangyeob Jung of Suwon-si (KR)

METHOD AND APPARATUS FOR MEASURING QOE IN RRC INACTIVE MODE AND RRC IDLE MODE IN WIRELESS COMMUNICATION SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240340991 titled 'METHOD AND APPARATUS FOR MEASURING QOE IN RRC INACTIVE MODE AND RRC IDLE MODE IN WIRELESS COMMUNICATION SYSTEM

The disclosure pertains to a 5G or 6G communication system designed to support higher data transmission rates. A method executed by a base station in a wireless communication system is described, involving the transmission of a first Radio Resource Control (RRC) message to a terminal containing configuration information related to an application layer measurement. This is followed by the transmission of a second RRC message to the terminal containing report information associated with a report of the application layer measurement conducted in an RRC inactive or idle state. The base station then receives a measurement report from the terminal regarding the application layer measurement performed in the RRC inactive or idle state, with the configuration information being applied to the RRC idle or inactive state.

• Key Features and Innovation:

- Utilization of RRC messages for application layer measurements in a wireless communication system. - Facilitation of higher data transmission rates in a 5G or 6G network. - Efficient handling of measurement reports in RRC inactive or idle states.

• Potential Applications:

- Enhanced data transmission capabilities in next-generation communication networks. - Improved network performance and reliability. - Optimization of resource allocation based on application layer measurements.

• Problems Solved:

- Addressing the need for higher data transmission rates in advanced communication systems. - Streamlining the process of conducting application layer measurements in RRC inactive or idle states. - Enhancing the overall efficiency of wireless communication networks.

• Benefits:

- Increased data throughput and network capacity. - Enhanced user experience with faster and more reliable connections. - Better resource management leading to improved network performance.

• Commercial Applications:

- Potential applications in telecommunications companies for upgrading network infrastructure. - Integration into IoT devices for improved connectivity and data transfer speeds. - Adoption by mobile network operators to offer enhanced services to customers.

• Prior Art:

- Readers can explore prior research on RRC messaging and application layer measurements in wireless communication systems to gain a deeper understanding of the technology.

• Frequently Updated Research:

- Stay updated on the latest advancements in 5G and 6G communication systems to understand how this technology fits into the evolving landscape.

Questions about 5G/6G: 1. How does this technology contribute to the evolution of wireless communication systems? - This technology enables higher data transmission rates and more efficient resource management in advanced communication networks.

2. What are the potential implications of implementing this method in a 5G or 6G network? - Implementing this method can lead to improved network performance, increased data throughput, and enhanced user experience in next-generation communication systems.

Original Abstract Submitted

the disclosure relates to a 5g or 6g communication system for supporting a higher data transmission rate. a method performed by a base station in a wireless communication system is provided. the method includes transmitting, to a terminal, a first radio resource control (rrc) message including configuration information associated with an application layer measurement of the terminal, transmitting, to the terminal, a second rrc message including report information associated with a report of the application layer measurement performed in an rrc inactive or an rrc idle; and receiving, from the terminal, a measurement report associated with the application layer measurement performed in the rrc inactive or the rrc idle, wherein the configuration information is applied to the rrc idle or the rrc inactive.