Multi-SIM Scheduling Gaps

Organization Name

apple inc.

Inventor(s)

Sethuraman Gurumoorthy of San Ramon CA (US)

Alexander Sirotkin of Hod Hasharon (IL)

Birgit Breining of Muenchen (DE)

Fangli Xu of Beijing (CN)

Haijing Hu of Los Gatos CA (US)

Naveen Kumar R. Palle Venkata of San Diego CA (US)

Pavan Nuggehalli of San Carlos CA (US)

Ralf Rossbach of Munich (DE)

Sarma V. Vangala of Campbell CA (US)

Srirang A. Lovlekar of Fremont CA (US)

Yuqin Chen of Beijing (CN)

Zhibin Wu of Los Altos CA (US)

Multi-SIM Scheduling Gaps - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240215101 titled 'Multi-SIM Scheduling Gaps

The abstract describes a patent application where a user equipment (UE) can switch between a connected state on a first network and an inactive/idle state on a second network using different subscriber identification modules (SIMs). The UE requests a scheduling gap configuration from the first network to avoid resource scheduling during the gap, tunes away to the second network during the gap, and then tunes back to the first network after the gap, maintaining the connected state.

• The patent allows a UE to efficiently switch between different networks using different SIMs.
• The scheduling gap configuration helps the UE avoid resource scheduling on the first network during the specified duration.
• The UE can perform operations on the second network during the scheduling gap without losing the connected state on the first network.
• This innovation enhances network efficiency and seamless connectivity for users with multiple SIMs.
• The patent addresses the need for improved network switching capabilities for devices with multiple SIM cards.

Potential Applications: - Mobile devices with multiple SIM cards - IoT devices requiring connectivity to different networks - Roaming devices that need to switch between networks seamlessly

Problems Solved: - Efficient network switching for devices with multiple SIM cards - Seamless connectivity during network transitions - Resource optimization for network operations

Benefits: - Enhanced user experience with seamless network switching - Improved network efficiency and resource management - Better connectivity for devices with multiple SIM cards

Commercial Applications: Title: "Multi-Network Switching Technology for Enhanced Connectivity" This technology can be applied in smartphones, IoT devices, and other connected devices to provide seamless network switching capabilities. It can benefit telecommunications companies, device manufacturers, and users looking for improved connectivity options.

Questions about the technology: 1. How does this patent improve network efficiency for devices with multiple SIM cards? 2. What are the potential challenges in implementing this technology across different types of devices?

Original Abstract Submitted

a user equipment (ue) is configured to enter a radio resource control (rrc) connected state on a first network using a first subscriber identification module (sim) and an rrc inactive or rrc idle state on a second network using a second sim, transmit, to the first network, a request for a scheduling gap (sg) configuration, wherein, during a duration of the sg, the first network avoids scheduling resources for the ue, receive, from the first network, an indication of the sg configuration to be used, during the duration of the sg, tune away from the first network to perform operations on the second network and after the duration of the sg, tune back to the first network, wherein the rrc connected state is maintained on the first network during the duration of the sg.