Apple inc. (20240357438). GENERATING FILTERED RESULTS IN USER EQUIPMENT-TRIGGERED LOWER LAYER-BASED HANDOVER simplified abstract
Contents
GENERATING FILTERED RESULTS IN USER EQUIPMENT-TRIGGERED LOWER LAYER-BASED HANDOVER
Organization Name
Inventor(s)
Dawei Zhang of Saratoga CA (US)
Haijing Hu of Cupertino CA (US)
Haitong Sun of Cupertino CA (US)
GENERATING FILTERED RESULTS IN USER EQUIPMENT-TRIGGERED LOWER LAYER-BASED HANDOVER - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240357438 titled 'GENERATING FILTERED RESULTS IN USER EQUIPMENT-TRIGGERED LOWER LAYER-BASED HANDOVER
The abstract of the patent application describes a method for performing a UE-triggered lower layer-based handover in a wireless communication system. This method involves measuring CSI-RS samples associated with a source gNB and a target gNB, which are transmitted in a burst structure. A subset of these samples is filtered using a layer 1 or layer 2 filter, and a filtered result is generated for each subset. Based on these filtered results, the method determines whether a handover from the source gNB to the target gNB should occur.
- Measurements of CSI-RS samples from source gNB and target gNB are performed.
- CSI-RS samples are transmitted in a burst structure.
- Filtering of CSI-RS samples using layer 1 or layer 2 filter.
- Generation of filtered results for subsets of CSI-RS samples.
- Determination of handover based on filtered results.
Potential Applications: - This technology can be applied in 5G and beyond wireless communication systems to improve handover performance. - It can enhance network efficiency and reliability by optimizing handover decisions based on CSI-RS samples.
Problems Solved: - Addressing issues related to handover performance and reliability in wireless communication systems. - Optimizing network efficiency by improving handover decision-making processes.
Benefits: - Enhanced user experience with seamless handovers between base stations. - Improved network performance and reliability in dynamic communication environments.
Commercial Applications: Title: Enhanced Handover Optimization Technology for 5G Networks This technology can be utilized by telecommunications companies to improve the performance and reliability of handovers in 5G networks. It can lead to better user experiences and increased network efficiency, ultimately benefiting both service providers and end-users.
Questions about Enhanced Handover Optimization Technology for 5G Networks:
1. How does this technology contribute to the overall efficiency of 5G networks? This technology improves handover performance, leading to better network reliability and user experiences in 5G networks.
2. What are the key advantages of using CSI-RS samples for handover decision-making? CSI-RS samples provide valuable information about the radio conditions between base stations, allowing for more informed handover decisions in wireless communication systems.
Original Abstract Submitted
performing a ue-triggered lower layer-based handover may include performing measurements of source gnb csi-rs samples associated with a source gnb. measurements of target gnb csi-rs samples associated with a target gnb may be performed, wherein the csi-rs samples associated with the source gnb and the csi-rs samples associated with the target gnb are transmitted in a burst structure. a subset of the source gnb csi-rs samples and the target gnb csi-rs samples may be filtered using a layer 1 or a layer 2 filter. a filtered result for each of the subset of source gnb csi-rs samples and the subset of target gnb csi-rs samples may be generated. based on the generated filtered result for each of the subset of source gnb csi-rs samples and the subset of target gnb csi-rs samples, determining whether a handover from the source gnb to the target gnb is to occur.
