A Time-Triggered Communication Method Based on Urgency-Based Scheduler in Time-Sensitive Networking

The development of the automotive industry and automation has led to a growing demand for time-critical systems to have low latency and jitter for critical traffic. To address this issue, the IEEE 802.1 Time-Sensitive Networking (TSN) task group proposed the Time-Aware Shaper (TAS) to implement Time-Triggered (TT) communication, enabling deterministic transmission by assigning specific time windows to each stream. However, the deployment of TAS requires a solution for the particular deployment scenario. Scheduling algorithms with Fixed-Routing and Waiting-Allowed (FR-WA) mechanisms while providing flexible solutions still have room for optimization in terms of their solution time, reducing network design efficiency and online scheduling deployment. Firstly, the paper overviews the key mechanisms to implement TT communication in TSN, including TAS and FR-WA scheduling algorithms. Secondly, building on this overview of these mechanisms, potential problems with the current implementation of the TAS mechanism are analyzed, including the increasing constraint number as the network scales and potential issues that may arise in traffic anomalies. Then, a method for implementing TT communication using Urgency-Based Scheduler (TT-UBS) is proposed to improve solution efficiency and deterministic transmission in the presence of traffic anomalies. The effectiveness of this method is also analyzed. We propose a scheduling algorithm for solving the parameters of the TT-UBS mechanism. Finally, a simulation-based assessment of the TT-UBS mechanism and the scheduling algorithm is presented. In addition, we extend the method of modifying the scheduling algorithm to other scheduling algorithms and explore the solution efficiency of the extended algorithms.