SYSTEM AND METHOD FOR PROVISIONING MULTIPLE NETWORK SLICES FOR CONCURRENT USE BY AN APPLICATION

Organization Name

T-Mobile Innovations LLC

Inventor(s)

Zheng Cai of Fairfax VA (US)

Zheng Fang of McLean VA (US)

SYSTEM AND METHOD FOR PROVISIONING MULTIPLE NETWORK SLICES FOR CONCURRENT USE BY AN APPLICATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240031924 titled 'SYSTEM AND METHOD FOR PROVISIONING MULTIPLE NETWORK SLICES FOR CONCURRENT USE BY AN APPLICATION

Simplified Explanation

The patent application describes a system, media, and methods for provisioning and establishing multiple network slices for an application's use. The application can provision a URLLC (Ultra-Reliable Low Latency Communications) slice and an eMBB (Enhanced Mobile Broadband) slice from a network based on a predefined policy. The application can then communicate high priority data using the URLLC slice and non-priority data using the eMBB slice. The application can utilize unique headers on the data to implement a data prioritization schema, which the network can use as filters. This allows the application to optimize its performance and operations at a user device and/or within the network.

• The patent/application provides a system and methods for provisioning and establishing multiple network slices for an application's use.
• The application can provision a URLLC slice and an eMBB slice from a network based on a predefined policy.
• The application can communicate high priority data using the URLLC slice and non-priority data using the eMBB slice.
• The application can utilize unique headers on the data to implement a data prioritization schema.
• The network can use the headers as filters to prioritize and handle the data accordingly.
• This allows the application to optimize its performance and operations at a user device and/or within the network.

Potential applications of this technology:

• This technology can be applied in various industries where applications require different levels of priority for data transmission.
• It can be used in autonomous vehicles to prioritize critical data transmission for safety-critical functions.
• It can be utilized in healthcare applications to ensure real-time transmission of vital patient data.
• This technology can be beneficial in industrial automation to prioritize control signals and ensure low-latency communication.

Problems solved by this technology:

• This technology solves the problem of efficiently managing and prioritizing data transmission for different types of applications.
• It addresses the need for reliable and low-latency communication for critical data while also accommodating non-priority data transmission.
• It solves the challenge of optimizing application performance and operations by leveraging the distinct characteristics of URLLC and eMBB slices.

Benefits of this technology:

• Applications can prioritize and transmit critical data reliably and with low latency using the URLLC slice.
• Non-priority data can be transmitted using the eMBB slice, ensuring efficient utilization of network resources.
• The unique headers and data prioritization schema enable the network to handle and process data based on predefined policies.
• This technology allows applications to optimize their performance and operations, enhancing user experience and overall efficiency.

Original Abstract Submitted

aspects herein provide a system, media, and methods for provisioning and establishing multiple network slices for use by an application. in aspects, a particular application is able to provision a urllc slice and an embb slice from a network. based on a predefined policy associated with the application, the application communicates high priority data using a urllc slice and non-priority data using the embb slice. the application can utilize unique headers on high priority data and non-priority data to implement the data prioritization schema, which the network can further use as filters. as such, the application can leverage the distinct characteristics of urllc and embb to optimize the application's performance and operations at a user device and/or within the network.