MOBILITY ENHANCEMENTS AND POWER SAVING FOR USER EQUIPMENT COMMUNICATION

Organization Name

QUALCOMM Incorporated

Inventor(s)

Jing Lei of San Diego CA (US)

Peter Pui Lok Ang of San Diego CA (US)

Tingfang Ji of San Diego CA (US)

MOBILITY ENHANCEMENTS AND POWER SAVING FOR USER EQUIPMENT COMMUNICATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 18059964 titled 'MOBILITY ENHANCEMENTS AND POWER SAVING FOR USER EQUIPMENT COMMUNICATION

Simplified Explanation

The patent application describes apparatuses and methods for enhancing mobility and saving power for User Equipment (UE). The apparatus is designed to operate on an active Downlink Bandwidth Part (DL BWP) in a source node, initiate a BWP inactivity timer at the UE to switch from the active DL BWP to the default DL BWP after a set time, report measurements from the source or target node, and start a mobility reception timer based on certain signal quality thresholds.

• Apparatus designed for enhancing mobility and saving power for User Equipment (UE)
• Operates on an active DL BWP in a source node, triggering a BWP switch to the default DL BWP after a set time
• Reports measurements from the source or target node
• Starts a mobility reception timer based on signal quality thresholds

Potential Applications

This technology can be applied in mobile communication systems, IoT devices, and other wireless networks where power saving and mobility enhancements are crucial.

Problems Solved

1. Power consumption optimization for UE devices 2. Seamless mobility management in wireless networks

Benefits

1. Improved battery life for UE devices 2. Enhanced user experience with seamless mobility transitions 3. Efficient utilization of network resources

Potential Commercial Applications

Optimized power-saving features for smartphones, IoT devices, and other wireless communication devices.

Possible Prior Art

There may be prior art related to power-saving techniques and mobility management in wireless networks, but specific examples are not provided in this context.

Unanswered Questions

How does this technology impact battery life for UE devices?

This technology aims to improve battery life for UE devices by optimizing power consumption. By efficiently managing bandwidth parts and mobility transitions, the device can conserve energy and extend battery life.

What are the potential challenges in implementing this technology in existing wireless networks?

One potential challenge could be ensuring compatibility with different network architectures and protocols. Additionally, integrating these power-saving and mobility enhancement features seamlessly into existing systems may require thorough testing and validation to avoid disruptions in network performance.

Original Abstract Submitted

Apparatuses and methods for mobility enhancements and power saving considerations for UE are described. An apparatus is configured to operate on an active DL BWP in a source node, where the active DL BWP is not a default DL BWP associated with the UE, and start a BWP inactivity timer at the UE that triggers a BWP switch from an active DL BWP to the default DL BWP after the BWP inactivity timer expires at a first expiration time. The apparatus is also configured to report a measurement of at least one of the source node or a target node, and start a mobility reception timer based on a condition associated with at least one of the measurement of the source node being below a first signal quality threshold or the measurement of the target node being above a second signal quality threshold.