MEASUREMENT TYPE TRANSITION CONFIGURATIONS

Organization Name

QUALCOMM Incorporated

Inventor(s)

Prashant Sharma of San Jose CA (US)

Muhammad Nazmul Islam of Littleton MA (US)

MEASUREMENT TYPE TRANSITION CONFIGURATIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17877418 titled 'MEASUREMENT TYPE TRANSITION CONFIGURATIONS

Simplified Explanation

Methods, systems, and devices for wireless communications are described in this patent application. The network can configure a user equipment (UE) with measurement objects indicating the synchronization signal blocks (SSBs) to be measured for neighbor cells. The UE may receive control signaling from the network indicating a switch from a first bandwidth part (BWP) to a second BWP. The first BWP is associated with a first cell measurement type for neighbor cells (e.g., inter-frequency or intra-frequency) and a first reference SSB. The second BWP is associated with a second, different, cell measurement type for neighbor cells and a second, different, reference SSB. After the BWP switch, the UE performs measurements on SSBs associated with neighbor cells based on the second cell measurement type.

• The patent application describes a method for configuring a UE with measurement objects for neighbor cells' SSBs.
• The UE receives control signaling to switch from one BWP to another, each associated with different cell measurement types and reference SSBs.
• After the BWP switch, the UE performs measurements on neighbor cells' SSBs based on the second cell measurement type.

Potential applications of this technology:

• This technology can be applied in wireless communication networks to improve the measurement accuracy of neighbor cells' SSBs.
• It can enhance the efficiency of handover procedures between cells in a network.
• The method described in the patent application can be implemented in 5G and future wireless networks.

Problems solved by this technology:

• The technology solves the problem of accurately measuring neighbor cells' SSBs in wireless communication networks.
• It addresses the issue of efficiently switching between different cell measurement types and reference SSBs.
• The method improves the overall performance and reliability of wireless networks.

Benefits of this technology:

• The technology enables more accurate measurement of neighbor cells' SSBs, leading to improved network performance and coverage.
• It enhances the efficiency of handover procedures, resulting in seamless connectivity for users.
• The method described in the patent application can be easily implemented in existing wireless communication systems, making it cost-effective.

Original Abstract Submitted

Methods, systems, and devices for wireless communications are described. The network may configure a user equipment (UE) with measurement objects indicating the synchronization signal blocks (SSB)s to be measured for neighbor cells. A UE may receive control signaling from the network indicating a switch from a first bandwidth part (BWP) to a second BWP. The first BWP may be associated with a first cell measurement type for neighbor cells (e.g., inter-frequency or intra-frequency) and a first reference SSB. The second BWP may be associated with a second, different, cell measurement type for neighbor cells and a second, different, reference SSB. After the BWP switch, the UE may perform measurements on SSBs associated with neighbor cells based on the second cell measurement type.