RELEASE GROUP OF CELLS USING L1/L2 SIGNALING FOR L1-L2 INTER-CELL MOBILITY UNDER MTRP

Organization Name

qualcomm incorporated

Inventor(s)

Shanyu Zhou of San Diego CA (US)

Aleksandar Damnjanovic of Del Mar CA (US)

Jelena Damnjanovic of Del Mar CA (US)

RELEASE GROUP OF CELLS USING L1/L2 SIGNALING FOR L1-L2 INTER-CELL MOBILITY UNDER MTRP - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240121586 titled 'RELEASE GROUP OF CELLS USING L1/L2 SIGNALING FOR L1-L2 INTER-CELL MOBILITY UNDER MTRP

Simplified Explanation

The abstract describes an invention related to wireless communication, specifically focusing on mobility configurations and deconfigurations within a cell set. The method involves receiving mobility configurations associated with cells in a set, receiving deconfiguration information to release certain cells from the set, and then releasing those cells based on the received information.

• Explanation of the patent/innovation:

- Receiving mobility configurations associated with cells in a set - Receiving deconfiguration information to release certain cells from the set - Releasing cells based on the received deconfiguration information

Potential Applications

This technology could be applied in cellular networks, particularly in optimizing handover procedures and managing cell configurations efficiently.

Problems Solved

- Streamlining mobility configurations within a cell set - Efficiently releasing cells based on deconfiguration information

Benefits

- Improved network performance - Enhanced mobility management - Better resource allocation

Potential Commercial Applications

"Optimizing Cell Mobility Configurations for Enhanced Network Performance"

Possible Prior Art

There may be prior art related to mobility management and cell configuration optimization in cellular networks. One example could be patents or research papers on handover procedures and cell reselection algorithms.

Unanswered Questions

How does this technology impact battery life in mobile devices?

This article does not address the potential impact of the described technology on battery life in mobile devices. The constant handovers and cell reconfigurations could potentially drain the battery faster, so it would be important to investigate this aspect further.

What are the security implications of implementing these mobility configurations?

The article does not delve into the security implications of implementing the described mobility configurations. It would be crucial to assess any vulnerabilities or risks associated with these configurations, especially in terms of potential attacks or unauthorized access to network resources.

Original Abstract Submitted

apparatus, methods, and computer program products for wireless communication are provided. an example method may include receiving, from a second network entity in rrc signaling, a set of mobility configurations, wherein each configuration of the set mobility configurations is associated with a respective cell of a mobility configured cell set, and wherein the set of mobility configurations comprises pcell configurations, wherein each pcell configuration of the pcell configurations corresponds to a respective cell in the mobility configured cell set. the example method may further include receiving, from the second network entity in dci or a mac-ce, mobility deconfiguration information configured to cause release of at least one subset of cells from the mobility configured cell set. the example method may further include releasing, based on the mobility deconfiguration information, the at least one subset of cells from the mobility configured cell set.