METHOD AND APPARATUS FOR RADIO LINK MONITORING MEASUREMENTS IN A SYSTEM USING BANDWIDTH PARTS

Organization Name

nec corporation

Inventor(s)

Hisashi Futaki of Tokyo (JP)

METHOD AND APPARATUS FOR RADIO LINK MONITORING MEASUREMENTS IN A SYSTEM USING BANDWIDTH PARTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240187198 titled 'METHOD AND APPARATUS FOR RADIO LINK MONITORING MEASUREMENTS IN A SYSTEM USING BANDWIDTH PARTS

The abstract of the patent application describes a method where a radio terminal continues to use a first synchronization signal block (SSB) associated with a first downlink bandwidth part (BWP) for radio link monitoring (RLM) measurements even after switching to a second BWP without changing the cell defining SSB.

• The innovation allows the radio terminal to monitor a suitable reference signal (RS) for RLM measurements after switching the active downlink BWP.
• By maintaining the use of the first SSB associated with the first BWP, the radio terminal can ensure continuity in RLM measurements.
• This method enables efficient monitoring of reference signals for RLM without interruption during BWP switching.

Potential Applications: - This technology can be applied in wireless communication systems to enhance RLM efficiency. - It can be utilized in 5G networks to improve signal monitoring and quality of service.

Problems Solved: - Ensures seamless RLM measurements during BWP switching. - Enhances the reliability and accuracy of reference signal monitoring in wireless networks.

Benefits: - Improved RLM performance in wireless communication systems. - Enhanced network efficiency and quality of service for users.

Commercial Applications: Title: Enhanced Radio Link Monitoring in Wireless Communication Systems This technology can be commercialized by telecommunications companies to optimize RLM processes in their networks, leading to better service quality and customer satisfaction. It can also be integrated into network equipment and devices to improve overall performance.

Prior Art: There may be prior art related to methods for maintaining RLM measurements during BWP switching in wireless communication systems. Further research is needed to explore existing technologies in this area.

Frequently Updated Research: Ongoing research in the field of wireless communication systems may lead to advancements in RLM techniques and protocols, potentially impacting the implementation of this technology in future networks.

Questions about the Technology: Question 1: How does this innovation contribute to the overall efficiency of RLM in wireless networks? Answer: This innovation ensures continuous monitoring of reference signals for RLM measurements, improving the accuracy and reliability of signal monitoring processes in wireless communication systems.

Question 2: What are the potential challenges in implementing this technology across different types of wireless networks? Answer: Implementing this technology may require compatibility with various network configurations and protocols, which could pose challenges in ensuring seamless integration and operation.

Original Abstract Submitted

when a downlink bandwidth part (bwp) is switched from a first bwp to a second bwp without a change of a cell defining synchronization signal block (ssb), if a reference signal type for radio link monitoring (rlm) is set to an ssb type, a radio terminal () continues to use for rlm measurements a first ssb associated with the first bwp after switching of the downlink bwp to the second bwp. this for example enables the radio terminal to monitor a suitable reference signal (rs) for rlm measurements after switching of the dl active bwp.