RESUME OF DUAL CONNECTIVITY FROM SECONDARY NODE WITH DELTA CONFIGURATION

Organization Name

QUALCOMM Incorporated

Inventor(s)

Peng Cheng of Beijing (CN)

RESUME OF DUAL CONNECTIVITY FROM SECONDARY NODE WITH DELTA CONFIGURATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 17641778 titled 'RESUME OF DUAL CONNECTIVITY FROM SECONDARY NODE WITH DELTA CONFIGURATION

Simplified Explanation

The described techniques in this patent application aim to efficiently identify a lower layer configuration for communication in a dual connectivity mode. Here is a simplified explanation of the abstract:

• The patent focuses on a method for a User Equipment (UE) to identify a lower layer configuration for communication in a dual connectivity mode.
• In an inactive state, the UE performs measurements on signals received from a master node, a secondary node, and nearby nodes.
• When the UE decides to transition back to a connected state, it reports the measurements and restores the original lower layer configuration used for dual connectivity.
• The UE then receives an indication of an updated lower layer configuration, which is based on the reported measurements and is provided as an offset from the original configuration.

Potential Applications

This technology has potential applications in various wireless communication systems, particularly those utilizing dual connectivity modes. Some potential applications include:

• 5G and future generation mobile networks
• Internet of Things (IoT) devices and networks
• Wireless communication systems with multiple nodes and connectivity options

Problems Solved

The patent addresses the following problems:

• Efficiently identifying a lower layer configuration for communication in a dual connectivity mode.
• Ensuring seamless transition from an inactive state to a connected state.
• Optimizing the use of multiple nodes and nearby nodes in a wireless communication system.

Benefits

The benefits of this technology are:

• Improved efficiency in identifying and configuring the lower layer for dual connectivity.
• Seamless transition from an inactive state to a connected state, enhancing user experience.
• Enhanced utilization of multiple nodes and nearby nodes, leading to improved network performance.

Original Abstract Submitted

Generally, the described techniques provide for efficiently identifying a lower layer configuration for communicating in a dual connectivity mode after transitioning from an inactive state to a connected state. To efficiently identify the lower layer configuration, a UE operating in a dual connectivity mode may perform measurements on signals received from a master node, a secondary node, and other nearby nodes in an inactive state. Once the UE decides to transition back to a connected state, the UE may report the measurements and restore an original lower layer configoration used to communicate in a dual connectivity mode. The UE may then receive an indication of an updated lower layer configuration as an offset of the original lower layer configuration, where the updated lower layer configuration may be based on the reported measurements.