LOAD BALANCING INTER-FREQUENCY MEASUREMENT ACTIVITIES FOR DUAL NETWORK LINK SCENARIOS

Organization Name

QUALCOMM Incorporated

Inventor(s)

Yuanbo Wang of San Diego CA (US)

Yue Hong of San Diego CA (US)

Arvind Vardarajan Santhanam of San Diego CA (US)

Thawatt Gopal of San Diego CA (US)

Xiaoning Lu of San Diego CA (US)

Defang Chen of San Diego CA (US)

Viswanath Sankaran of San Diego CA (US)

Xiao Cheng of San Diego CA (US)

Christopher James Pais of San Diego CA (US)

Harsimransingh Narindersingh Bindra of San Diego CA (US)

Parth AshwinKumar Pandya of Richmond Hill (CA)

Billy Andika of San Diego CA (US)

LOAD BALANCING INTER-FREQUENCY MEASUREMENT ACTIVITIES FOR DUAL NETWORK LINK SCENARIOS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17937223 titled 'LOAD BALANCING INTER-FREQUENCY MEASUREMENT ACTIVITIES FOR DUAL NETWORK LINK SCENARIOS

Simplified Explanation

The patent application describes a method for improving the efficiency and reliability of inter-frequency measurement activities in a dual network link scenario. Here are the key points:

• In a scenario where a user equipment (UE) is connected to two network links, one wireless and one always-on or with a DRX configuration, the UE is provided with a measurement configuration indicating multiple inter-frequency measurement objects during an off duration of a DRX cycle on the first network link.
• If the second network link is always-on, the UE assigns the inter-frequency measurement objects to the second network link.
• If the second network link has a DRX configuration, the UE performs some inter-frequency measurement activities on the first network link and assigns some inter-frequency measurement objects to unoccupied gap occasions in the off duration of the DRX cycle on the second network link.
• This method allows the UE to save power by spending more time in a low power state during the off duration of the DRX cycle.
• It also improves the mobility performance of the UE by increasing the efficiency and reliability of inter-frequency measurement activities.

Potential applications of this technology:

• Mobile devices with dual network connectivity, such as smartphones and tablets, can benefit from improved power efficiency and mobility performance.
• Internet of Things (IoT) devices that require dual network connectivity can also benefit from this method.

Problems solved by this technology:

• Power consumption: By spending more time in a low power state during the off duration of the DRX cycle, the UE can save power.
• Mobility performance: By increasing the efficiency and reliability of inter-frequency measurement activities, the UE's mobility performance can be improved.

Benefits of this technology:

• Power savings: The UE can save power by spending more time in a low power state.
• Improved mobility performance: The efficiency and reliability of inter-frequency measurement activities are increased, leading to improved mobility performance for the UE.

Original Abstract Submitted

In a dual network link scenario, a wireless network may provide a user equipment (UE) with a measurement configuration indicating multiple inter-frequency measurement objects during an off duration of a discontinuous reception (DRX) cycle configured on a first network link. The UE may assign the inter-frequency measurement objects to a second network link if the second network link has an always-on configuration. Alternatively, if the second network link has a DRX configuration, the UE may perform some inter-frequency measurement activities on the first network link and assign some inter-frequency measurement objects to unoccupied gap occasions in the off duration for the DRX cycle configured on the second network link. In this way, the UE may save power by spending more time in a low power state, and mobility performance for the UE may be improved by increasing the efficiency and reliability of inter-frequency measurement activities.