LOW LATENCY FAIRNESS MANAGEMENT

Organization Name

CANON KABUSHIKI KAISHA

Inventor(s)

Patrice Nezou of LIFFRE (FR)

Julien Sevin of SAINT AUBIN DU CORMIER (FR)

Stéphane Baron of LE RHEU (FR)

LOW LATENCY FAIRNESS MANAGEMENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 18571115 titled 'LOW LATENCY FAIRNESS MANAGEMENT

The abstract describes a communication method in a network where nodes transmit data using a contention access method based on contention parameter sets. Nodes switch from one parameter set to another after successfully transmitting a specific type of traffic during a dedicated service period.

• Nodes in a communication network switch contention parameter sets after successful transmission of specific traffic during a dedicated service period.
• The method allows for efficient access to the communication channel by optimizing contention parameters based on traffic types.
• Access point nodes allocate dedicated service periods for specific types of traffic, improving overall network performance.
• This approach reduces collisions and improves the reliability of data transmission in the network.
• By dynamically adjusting contention parameters, the method enhances the overall efficiency and throughput of the communication network.

Potential Applications: - Wireless communication networks - Internet of Things (IoT) devices - Smart city infrastructure - Industrial automation systems

Problems Solved: - Addressing contention issues in communication networks - Optimizing data transmission efficiency - Enhancing network reliability and performance

Benefits: - Improved data transmission reliability - Enhanced network efficiency - Reduced collisions and data packet loss - Optimal utilization of communication channels

Commercial Applications: Title: "Dynamic Contention Parameter Switching for Enhanced Network Performance" This technology can be applied in various industries such as telecommunications, smart devices, and industrial automation to improve network efficiency and reliability. It can lead to cost savings by optimizing data transmission and reducing network congestion.

Questions about Dynamic Contention Parameter Switching: 1. How does dynamic contention parameter switching improve network performance?

  - Dynamic contention parameter switching optimizes access to the communication channel based on traffic types, reducing collisions and improving overall efficiency.

2. What are the potential applications of this technology in the IoT industry?

  - This technology can be used in IoT devices to enhance data transmission reliability and efficiency, improving the overall performance of IoT networks.

Original Abstract Submitted

A communication method in a communication network comprising a plurality of nodes connected to at least one access point node, the nodes being able to transmit data on at least one communication channel using a contention access method according to a contention parameter set, the method comprising, at a node, transmitting a given type of traffic during a dedicated service period allocated by the access point node, and switching, at the end of the dedicated service period, from a first contention parameter set to a second contention parameter set for contention access to the communication channel after a successful transmission of the given type of traffic during the dedicated service period.