SENSING-ASSISTED MOBILITY MANAGEMENT

Organization Name

Huawei Technologies Co., Ltd.

Inventor(s)

Aman Jassal of Stittsville (CA)

Amine Maaref of Ottawa (CA)

Jianglei Ma of Ottawa (CA)

SENSING-ASSISTED MOBILITY MANAGEMENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 18668940 titled 'SENSING-ASSISTED MOBILITY MANAGEMENT

Some embodiments of the present disclosure introduce dynamic capability extension and reduction for sensing-assisted mobility management. This involves extending and reducing the capabilities of mobile communication devices to enhance mobility management procedures carried out at a serving device. The mobile communication device can be associated with an object fitted with multiple sensors, reporting an extended set of capabilities to the serving device. The serving device can then provide configuration details for some of the sensors upon receiving sensor measurement data from the mobile communication device, enabling sensor-data enhanced mobility management decisions.

• Mobile communication devices' capabilities can be dynamically extended and reduced for sensing-assisted mobility management.
• The devices can be associated with objects equipped with sensors to enhance mobility management procedures.
• Serving devices can provide configuration details for sensors based on data received from mobile communication devices.
• Sensor-data enhanced mobility management decisions can be made by serving devices.
• This innovation aims to optimize mobility management through dynamic capability adjustments based on sensor data.

Potential Applications: - Enhanced tracking and management of objects in various industries. - Improved navigation and positioning systems for indoor and outdoor environments. - Enhanced security and surveillance systems utilizing sensor data for better decision-making.

Problems Solved: - Inefficient mobility management due to limited capabilities of mobile devices. - Lack of real-time sensor data integration for enhanced decision-making. - Challenges in optimizing mobility systems based on dynamic environmental factors.

Benefits: - Improved efficiency and accuracy in mobility management. - Enhanced decision-making based on real-time sensor data. - Better tracking and monitoring of objects in various settings.

Commercial Applications: Dynamic capability extension and reduction for sensing-assisted mobility management can be applied in industries such as logistics, healthcare, smart cities, and security systems. This technology can revolutionize how objects are tracked, managed, and monitored in real-time, leading to increased efficiency and improved decision-making processes.

Questions about Dynamic Capability Extension and Reduction for Sensing-Assisted Mobility Management:

1. How does this technology improve mobility management procedures compared to traditional methods? This technology enhances mobility management by dynamically adjusting the capabilities of mobile devices based on sensor data, leading to more efficient and accurate decision-making processes.

2. What industries can benefit the most from dynamic capability extension and reduction for sensing-assisted mobility management? Industries such as logistics, healthcare, smart cities, and security systems can greatly benefit from this technology by improving tracking, monitoring, and decision-making processes in real-time.

Original Abstract Submitted

Some embodiments of the present disclosure introduce dynamic capability extension and reduction for sensing-assisted mobility management. Capabilities of mobile communication devices may be dynamically extended and reduced to the benefit of sensing-assisted mobility management procedures carried out at a serving device. The mobile communication device may become associated with an object fitted with a plurality of sensors. The mobile communication device may report, to a serving device, an extended set of capabilities. The serving device may respond by providing, to the mobile communication device, configuration details for at least some of the sensors. Upon receipt, from the mobile communication device, of sensor measurement data, the serving device may be empowered to make sensor-data enhanced mobility management decisions.