LIGHT CONNECTIVITY AND AUTONOMOUS MOBILITY

Organization Name

InterDigital Patent Holdings, Inc.

Inventor(s)

Yugeswar Deenoo of Chalfont PA (US)

Ghyslain Pelletier of Montreal (CA)

Ping Hsuan Tan of Montreal (CA)

Martino Freda of Laval (CA)

LIGHT CONNECTIVITY AND AUTONOMOUS MOBILITY - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240381478 titled 'LIGHT CONNECTIVITY AND AUTONOMOUS MOBILITY

The patent application contemplates techniques for light and/or inactive state connectivity and/or autonomous mobility for a wireless transmit/receive unit (WTRU). The WTRU may have different modes such as inactive/idle mode, light connected/loosely connected/inactive mode, and connected/fully connected/active mode. In the light connected mode, the WTRU may have its context stored in a Radio Access Network (RAN) and perform area monitoring procedures. It may engage in autonomous mobility within a logical area without notifying the network, but provide notice when moving outside the logical area. Mobility in the light connected state may be network-controlled for handover purposes. The WTRU may be reachable during light connectivity and engage in autonomous mobility during light connectivity and/or an inactive state.

• WTRU can have different modes such as inactive/idle mode, light connected/loosely connected/inactive mode, and connected/fully connected/active mode.
• In light connected mode, WTRU may have its context stored in a RAN and perform area monitoring procedures.
• WTRU can engage in autonomous mobility within a logical area without network notification but provide notice when moving outside the logical area.
• Mobility in light connected state may be network-controlled for handover purposes.
• WTRU can be reachable during light connectivity and engage in autonomous mobility during light connectivity and/or an inactive state.

Potential Applications: - Mobile communication systems - Internet of Things (IoT) devices - Autonomous vehicles

Problems Solved: - Seamless connectivity transitions for WTRUs - Efficient area monitoring procedures - Autonomous mobility management

Benefits: - Improved network efficiency - Enhanced user experience - Seamless handover processes

Commercial Applications: Title: "Enhanced Connectivity Management for Wireless Devices" This technology can be utilized in telecommunications companies to improve network management and enhance user connectivity experiences. It can also be integrated into IoT devices for efficient data transfer and communication.

Questions about the technology: 1. How does the WTRU handle autonomous mobility within a logical area? 2. What are the benefits of network-controlled mobility in the light connected state?

Original Abstract Submitted

light and/or inactive state connectivity and/or autonomous mobility techniques are contemplated. a wtru may, for example, have an inactive/idle mode, a light connected/loosely connected/inactive mode and/or a connected/fully connected/active mode. a wtru in light connected mode may have a wtru context stored in a ran. a wtru may perform an area monitoring procedure while in light connected state. a wtru may engage in autonomous mobility during light connectivity. a wtru may move within a logical area (e.g., a ran paging area), perhaps without notifying the network. the wtru may provide notice when it has moved outside a logical area (e.g., update ran paging area). mobility in light connected state may be network controlled (e.g., to enable handover when data transfer may be allowed and/or ongoing). a wtru may be reachable during a light connectivity state. a wtru may engage in autonomous mobility during light connectivity and/or an inactive state.