METHOD TO DROP PACKETS THAT ARE IRRELEVANT TO SUBSCRIBERS IN MOBILE APPLICATIONS

Organization Name

Telefonaktiebolaget LM Ericsson (publ)

Inventor(s)

Ananya Muddukrishna of Enskededalen (SE)

Lars Ernstrom of Mountain View CA (US)

[[:Category:José Ara�jo of Stockholm (SE)|José Ara�jo of Stockholm (SE)]][[Category:José Ara�jo of Stockholm (SE)]]

METHOD TO DROP PACKETS THAT ARE IRRELEVANT TO SUBSCRIBERS IN MOBILE APPLICATIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18257653 titled 'METHOD TO DROP PACKETS THAT ARE IRRELEVANT TO SUBSCRIBERS IN MOBILE APPLICATIONS

Simplified Explanation: The patent application describes methods and apparatuses for packet processing in a network environment, specifically focusing on handling packets for publish-subscribe applications executed by subscriber wireless devices.

• The method involves receiving message processing information related to publish-subscribe applications and initiating packet dropping tasks to manage packets for each application.
• Each packet dropping task processes packets directed towards a specific application, retaining them in a task-side message buffer until capacity is reached, and discarding packets when the buffer is full.
• The method also includes transmitting the packets in the task-side message buffer to the respective applications.

Key Features and Innovation:

• Efficient packet processing for publish-subscribe applications.
• Dynamic management of packets to prevent overload.
• Task-side message buffer for temporary storage of packets.
• Automatic packet dropping mechanism based on buffer capacity.

Potential Applications: This technology can be applied in various network environments where efficient packet processing for publish-subscribe applications is required, such as IoT networks, telecommunications systems, and cloud computing platforms.

Problems Solved:

• Overload of packets for publish-subscribe applications.
• Ensuring timely delivery of packets to the intended applications.
• Efficient utilization of network resources.

Benefits:

• Improved network performance and reliability.
• Reduced packet loss and latency.
• Enhanced scalability for handling a large number of applications.

Commercial Applications: The technology can be utilized in telecommunications companies, cloud service providers, IoT device manufacturers, and network infrastructure companies to optimize packet processing and enhance overall network efficiency.

Questions about Packet Processing: 1. How does the method handle packet dropping tasks for different publish-subscribe applications? 2. What are the benefits of using a task-side message buffer in packet processing?

Frequently Updated Research: Ongoing research in the field of network function optimization and packet processing algorithms may provide further insights into enhancing the efficiency of handling packets for various applications in network environments.

Original Abstract Submitted

Methods and apparatuses for packet processing. A method performed by a network function includes receiving message processing information relating to one or more publish-subscribe applications executed by one or more subscriber wireless devices. The method further includes causing a packet dropping task to be initiated to handle packets for each application, wherein each packet dropping task processes packets directed towards a given application from among applications, and wherein the processing performed by each packet dropping task comprises retaining packets directed towards the given application in a task-side message buffer until a task-side message buffer capacity is reached and discarding packets directed towards the given application when the task-side message buffer capacity has been reached. The method also includes initiating transmission of the packets in the task-side message buffer towards applications.