Telefonaktiebolaget lm ericsson (publ) (20240196272). Methods for Predicting and Signaling Traffic Status and Migration simplified abstract
Contents
Methods for Predicting and Signaling Traffic Status and Migration
Organization Name
telefonaktiebolaget lm ericsson (publ)
Inventor(s)
Angelo Centonza of Granada (ES)
[[:Category:Henrik Ryd�n of Stockholm (SE)|Henrik Ryd�n of Stockholm (SE)]][[Category:Henrik Ryd�n of Stockholm (SE)]]
Ali Parichehrehteroujeni of Linköping (SE)
Methods for Predicting and Signaling Traffic Status and Migration - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240196272 titled 'Methods for Predicting and Signaling Traffic Status and Migration
Abstract: Embodiments include methods for a first network node of a wireless network. Such methods include receiving, from a second network node of the wireless network, a first message comprising traffic status information for the second network node and performing one or more of the following operations based on the traffic status information: predicting a change in load and/or interference in a coverage area of the first network node; adjusting configurations of one or more cells and/or one or more beams served by the first network node; requesting the second network node to adjust configurations of one or more cells and/or one or more beams served by the second network node; mobility load balancing with respect to one or more user equipment (UEs) served by the first network node; and configuring one or more UEs served by the first network node to use communication settings that are more robust to interference.
- Key Features and Innovation:
- Predicting changes in load and interference in the coverage area. - Adjusting configurations of cells and beams. - Requesting adjustments from other network nodes. - Mobility load balancing for UEs. - Configuring UEs for robust communication settings.
Potential Applications: This technology can be applied in wireless networks to optimize network performance, enhance coverage, and improve user experience by dynamically adjusting network configurations based on traffic status information.
Problems Solved: This technology addresses issues related to network congestion, interference, and load imbalances by enabling proactive adjustments to network configurations.
Benefits: - Improved network performance. - Enhanced coverage and capacity. - Better user experience. - Efficient resource utilization.
Commercial Applications: This technology can be utilized by telecommunications companies, network operators, and infrastructure providers to enhance the efficiency and reliability of wireless networks, leading to improved service quality and customer satisfaction.
Prior Art: Readers can explore existing patents and research related to dynamic network optimization, load balancing, and interference mitigation in wireless networks to gain a deeper understanding of the prior art in this field.
Frequently Updated Research: Stay informed about the latest advancements in wireless network optimization, traffic management, and interference mitigation to leverage cutting-edge technologies for network improvement.
Questions about Wireless Network Optimization: 1. How does this technology contribute to improving network performance and user experience? 2. What are the key challenges in implementing dynamic network optimization in wireless networks?
Original Abstract Submitted
embodiments include methods for a first network node of a wireless network. such methods include receiving, from a second network node of the wireless network, a first message comprising traffic status information for the second network node and performing one or more of the following operations based on the traffic status information: predicting a change in load and/or interference in a coverage area of the first network node; adjusting configurations of one or more cells and/or one or more beams served by the first network node; requesting the second network node to adjust configurations of one or more cells and/or one or more beams served by the second network node; mobility load balancing with respect to one or more user equipment (ues) served by the first network node; and configuring one or more ues served by the first network node to use communication settings that are more robust to interference.
