PRIORITIZING DATA PACKETS IN WIRELESS COMMUNICATION NETWORK

Organization Name

SAMSUNG ELECTRONICS CO., LTD.

Inventor(s)

Shanthossh N of Bangalore (IN)

Rishav Agarwal of Bangalore (IN)

Eda Raja Moses Manoj Kumar of Bangalore (IN)

PRIORITIZING DATA PACKETS IN WIRELESS COMMUNICATION NETWORK - A simplified explanation of the abstract

This abstract first appeared for US patent application 18456214 titled 'PRIORITIZING DATA PACKETS IN WIRELESS COMMUNICATION NETWORK

Simplified Explanation

The patent application describes a method for prioritizing data packets in a wireless network. The method involves receiving data packets at a SDAP buffer and creating flow queues by dividing the PDCP buffer into high priority and low priority flow queues. The priority for each data packet is determined based on Quality of Service (QoS) parameters. The method then performs one of two actions based on the QoS parameters: transmitting at least one data packet from the high priority flow queue, or delaying transmission of at least one data packet from the low priority flow queue by buffering it.

• The method involves receiving data packets at a buffer and dividing it into high priority and low priority flow queues based on QoS parameters.
• The priority for each data packet is determined based on the QoS parameters.
• The method can transmit data packets from the high priority flow queue and delay transmission of data packets from the low priority flow queue by buffering them.
• The electronic device can be configured with connectivity or transmitting data packets from the high priority flow queue to the first stack and data packets from the low priority flow queue to the second stack.
• The electronic device can be configured with multi RAT (Radio Access Technology) multi connectivity.

Potential applications of this technology:

• Wireless networks: This method can be applied in various wireless network environments to prioritize data packets based on QoS parameters, ensuring efficient transmission and delivery of high priority data.
• Internet of Things (IoT): With the increasing number of IoT devices and the need for reliable and timely data transmission, this method can be used to prioritize IoT data packets and ensure critical data is transmitted without delay.
• Real-time applications: Applications that require real-time data transmission, such as video streaming or online gaming, can benefit from this method by prioritizing data packets and reducing latency.

Problems solved by this technology:

• Congestion management: By prioritizing data packets based on QoS parameters, this method helps manage network congestion and ensures that high priority data is transmitted without delay, even in congested network conditions.
• Quality of Service (QoS) optimization: This method allows for efficient allocation of network resources by prioritizing data packets, improving overall QoS for different types of data traffic.
• Reliable data transmission: By delaying transmission of low priority data packets, this method helps ensure that high priority data is transmitted first, reducing the risk of data loss or degradation.

Benefits of this technology:

• Improved network performance: By prioritizing data packets, this method helps optimize network performance by ensuring that high priority data is transmitted and delivered efficiently.
• Enhanced user experience: Applications that require real-time or high priority data, such as video streaming or online gaming, can benefit from reduced latency and improved reliability provided by this method.
• Efficient resource allocation: By dividing the buffer into flow queues and prioritizing data packets, this method allows for efficient allocation of network resources, maximizing the utilization of available bandwidth.

Original Abstract Submitted

A method for prioritizing data packets in a wireless network. Data packets are received at a SDAP buffer. Flow queues may be created by dividing PDCP buffer into high priority flow queue and low priority flow queue to determine priority for each data packets based on QoS parameters. Based on QoS parameters performing one of transmitting the at least one data packet from the at least one high priority flow queue and delaying transmission of at least one data packet of the at least one low priority flow queue by buffering the at least one data packet, the electronic device may be configured with connectivity or transmitting data packets from high priority flow queue to first stack and data packet from the low priority flow queue to second stack, when the electronic device may be configured with multi RAT multi connectivity.