20240056925. SYSTEM AND METHOD FOR MOBILITY MANAGEMENT IN WIRELESS NETWORKS simplified abstract (Huawei Technologies Co., Ltd.)
SYSTEM AND METHOD FOR MOBILITY MANAGEMENT IN WIRELESS NETWORKS
Organization Name
Inventor(s)
SYSTEM AND METHOD FOR MOBILITY MANAGEMENT IN WIRELESS NETWORKS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240056925 titled 'SYSTEM AND METHOD FOR MOBILITY MANAGEMENT IN WIRELESS NETWORKS
Simplified Explanation
Some embodiments of the present disclosure relate to managing mobility across multiple subsystems of wireless network devices, such as base stations, drones, balloons, planes, and satellites. The focus is on maintaining user experiences as they move between different types of networks, such as terrestrial and non-terrestrial networks. The disclosure also addresses establishing communication protocols between user devices and transmit-receive points to effectively manage device mobility.
- Integrating terrestrial networks with non-terrestrial networks
- Managing mobility of user devices as they switch between different network types
- Establishing communication formats for exchange between user devices and transmit-receive points
Potential Applications
- Seamless handover between terrestrial and non-terrestrial networks for mobile users
- Improved connectivity for devices in remote or hard-to-reach areas
- Enhanced network coverage and reliability for users on the move
Problems Solved
- Ensuring uninterrupted connectivity for users transitioning between different network types
- Managing handovers between terrestrial and non-terrestrial networks efficiently
- Enhancing overall user experience by optimizing device mobility across networks
Benefits
- Improved user experience with seamless network transitions
- Enhanced network reliability and coverage in diverse environments
- Efficient management of device mobility for better connectivity.
Original Abstract Submitted
some embodiments of the present disclosure relate to mobility management across multiple subsystems of wireless network devices, such as base-stations, drones, balloons, planes and satellites. in particular, the maintenance of user experiences across the subsystems is addressed. aspects of the present disclosure relate to integrating terrestrial networks with non-terrestrial networks and establishing mechanisms for managing mobility of user devices as the devices travel from a service area defined by a connection with a terrestrial network to a service area defined by a connection with a non-terrestrial network or vice versa. aspects of the present disclosure relate to establishing a format for an exchange of communication between user devices and transmit-receive points so that the mobility of the user device may be appropriately managed.
