Time aware shaper allocates different traffic levels in multiple time slots
Intelligent network management
Deterministic networks rely on intelligent network management systems to ensure network stability and availability by monitoring network status, adjusting traffic in real-time, identifying and responding to faults, and other means. The intelligent network management system uses advanced algorithms and machine learning technology to adapt to constantly changing network conditions.
Time synchronization mechanism
The time synchronization mechanism is key to ensuring time consistency between devices in the network. By adopting a time synchronization protocol, ensure that devices in the network have consistent perception of time. This is crucial for collaborative work and the correct execution of protocols, especially in scenarios that require collaborative operation of multiple devices.
Measure line and node delay
The goal of time synchronization is to maintain consistency in the clocks of each node and relative time in a distributed system, that is, to keep the timing error between nodes within a certain range. To achieve this goal, it is necessary to fully understand the transmission delay between various nodes in the system in order to make precise adjustments. The delay in lines and switches is one of the main factors affecting the accuracy of time synchronization. By measuring these delays, transmission delays can be more accurately estimated and compensated, thereby improving the accuracy of time synchronization.
By integrating these key technologies, deterministic networks can provide highly predictable, stable, and controllable communication environments to meet latency sensitive application needs, such as industrial automation, intelligent transportation systems, etc. The synergistic effect of these technologies makes deterministic networks have enormous potential and advantages in the field of real-time communication.
Application fields of deterministic networks
Deterministic networks play an important role in various application fields, especially those that are sensitive to real-time communication and latency. The following are the main application areas of deterministic networks:
industrial automation 
Industrial automation is one of the important application areas of deterministic networks. In fields such as intelligent manufacturing and industrial Internet of Things, it is necessary to achieve real-time communication between devices to ensure the stable operation of production lines. Deterministic networks can provide low latency and high reliability network connections, supporting real-time data transmission and remote control of industrial control systems. Through remote monitoring, equipment status can be monitored in real time, and problems can be diagnosed and repaired remotely, reducing downtime.