MONITORING FOR PERIODIC SIGNALS DURING NON-UNIFORM DISCONTINUOUS RECEPTION CYCLES

Organization Name

QUALCOMM Incorporated

Inventor(s)

Iyab Issam Sakhnini of San Diego CA (US)

Prashanth Haridas Hande of San Diego CA (US)

Hyun Yong Lee of San Diego CA (US)

Tao Luo of San Diego CA (US)

Wanshi Chen of San Diego CA (US)

Linhai He of San Diego CA (US)

Peter Gaal of San Diego CA (US)

Junyi Li of Fairless Hills PA (US)

Diana Maamari of San Diego CA (US)

MONITORING FOR PERIODIC SIGNALS DURING NON-UNIFORM DISCONTINUOUS RECEPTION CYCLES - A simplified explanation of the abstract

This abstract first appeared for US patent application 17875318 titled 'MONITORING FOR PERIODIC SIGNALS DURING NON-UNIFORM DISCONTINUOUS RECEPTION CYCLES

Simplified Explanation

Methods, systems, and devices for wireless communications are described in this patent application. The abstract explains that a network entity can send a control message to a user equipment (UE) to identify two different discontinuous reception (DRX) cycles for the UE to use. These DRX cycles have different active durations. The network entity also sends a second control message to the UE, identifying periodic resources for the UE to use in monitoring for a periodic signal. These periodic resources are outside of at least the first active duration. The UE can then monitor for the periodic signal during the first active duration based on updating the first active duration, updating the periodic resources, or both.

• A network entity can assign different DRX cycles to a UE, allowing for more efficient power management and resource allocation.
• The UE can monitor for a periodic signal using periodic resources that are outside of the active duration of the DRX cycles, ensuring that the monitoring does not interfere with the UE's normal operation.
• The first active duration can be updated based on the periodic resources being outside of it, allowing for flexibility in monitoring for the periodic signal.
• The periodic resources can also be updated, providing further flexibility in monitoring for the periodic signal.

Potential applications of this technology:

• Wireless communication systems and networks
• Mobile devices and smartphones
• Internet of Things (IoT) devices
• Industrial automation and control systems

Problems solved by this technology:

• Efficient power management in wireless communication systems
• Optimal resource allocation for monitoring periodic signals
• Minimizing interference between different communication processes in a UE

Benefits of this technology:

• Improved battery life for mobile devices and IoT devices
• Enhanced network efficiency and capacity
• More reliable detection of periodic signals in wireless communication systems

Original Abstract Submitted

Methods, systems, and devices for wireless communications are described. For example, a network entity may output, and a user equipment (UE) may receive, a first control message identifying a first discontinuous reception (DRX) cycle and a second, different DRX cycle for the UE to use, the first and second DRX cycles having a first and second active duration, respectively. The network entity may also output a second control message identifying periodic resources for the UE to use to monitor for a periodic signal, the periodic resources being outside at least the first active duration. The UE may monitor for, and the network entity may output, based on the periodic resources being outside the first active duration, the periodic signal during the first active duration based on updating the first active duration, updating the periodic resources, or both.