NETWORK NODE TRIGGERED MOBILITY MEASURMENT REPORTING

Organization Name

Telefonaktiebolaget LM Ericsson (publ)

Inventor(s)

Jan Christoffersson of Luleå (SE)

Min Wang of Luleå (SE)

Mårten Ericson of Gammelstad (SE)

Tommy Arngren of Södra Sunderbyn (SE)

NETWORK NODE TRIGGERED MOBILITY MEASURMENT REPORTING - A simplified explanation of the abstract

This abstract first appeared for US patent application 17910994 titled 'NETWORK NODE TRIGGERED MOBILITY MEASURMENT REPORTING

Simplified Explanation

The patent application describes a method performed by a network node to trigger mobility measurements in a wireless network. Here are the key points:

• The network node obtains information about the backhaul link quality of a wireless backhaul link.
• Based on this information, the network node sends an indication to a subset of user equipment (UEs) served by the network node in a cell to perform mobility measurements.
• The network node receives mobility measurement reports from the subset of UEs.
• The network node determines a handover action for the subset of UEs based on the backhaul link quality and the mobility measurement reports.

Potential applications of this technology:

• Wireless network optimization: The method can be used to improve the overall performance and efficiency of a wireless network by triggering mobility measurements and making handover decisions based on the backhaul link quality.
• Quality of service improvement: By monitoring the backhaul link quality and performing handovers when necessary, the method can help maintain a high quality of service for UEs in the network.
• Load balancing: The method can be used to distribute the load among different cells in a network by triggering handovers based on the backhaul link quality and mobility measurement reports.

Problems solved by this technology:

• Efficient handover decisions: By considering both the backhaul link quality and mobility measurement reports, the method can make more informed handover decisions, ensuring a seamless transition for UEs between cells.
• Network optimization: The method helps optimize the performance of the network by triggering mobility measurements and handovers when necessary, improving overall efficiency and user experience.
• Resource allocation: By monitoring the backhaul link quality, the method can allocate network resources more effectively, ensuring that UEs are connected to the most suitable cell for their needs.

Benefits of this technology:

• Improved network performance: By making handover decisions based on the backhaul link quality and mobility measurement reports, the method can help maintain a stable and reliable connection for UEs, leading to improved network performance.
• Enhanced user experience: The method ensures that UEs are connected to the most suitable cell, providing a seamless and uninterrupted user experience.
• Efficient resource allocation: By monitoring the backhaul link quality and triggering handovers when necessary, the method helps optimize the allocation of network resources, improving overall efficiency and capacity.

Original Abstract Submitted

There is provided mechanisms for triggering mobility measurements. A method is performed by a network node. The method comprises obtaining information about backhaul link quality of a wireless backhaul link of the network node. The method comprises, as a result thereof, sending, to at least a subset of all UEs served by the network node in a cell, an indication for the subset of UEs to perform mobility measurements. The method comprises receiving mobility measurement reports from the subset of UEs. The method comprises determining a handover action for the subset of UEs based at least on the backhaul link quality and on the mobility measurement reports.