Many network applications, eg, industrial control, demand ultra-low latency (ULL). However,
traditional packet networks can only reduce the end-to-end latencies to the order of tens of …

Networks are a core element of many industrial and automation systems at present. Often
these networks transport time-and safety-critical messages that control physical processes …

Industrial communication systems represent one of the most important innovations of the last
decades in the context of factory and process automation systems. They are networks …

With the development of real-time critical systems, the ever-increasing communication data
traffic puts forward high-bandwidth and low-delay requirements for communication networks …

Time-sensitive networking (TSN) is a next generation local area network technology for the
coexistence of information and operation technology, targeted to industrial automation, in …

Many emerging applications require a higher level of flexibility, modularity, and efficiency but
are dependent on advancements in communication infrastructure and distributed computing …

With the continued evolution of autonomous driving, the communication demand for in-
vehicle networks (IVNs) has dramatically increased, and the traditional IVN solutions have …

In vehicular communications, the use of IP-based vehicular networking is expected to
enable the deployment of various road applications, namely for vehicle-to-infrastructure …

Many industrial real-time applications in various domains, eg, automotive, industrial
automation, industrial IoT, and industry 4.0, require ultra-low end-to-end network latency …

Deterministic Networking (DetNet) has recently attracted much attention. It aims at studying
the deterministic bounded latency and low latency variation for time-sensitive applications …