@misc{10481/69446,
year = {2021},
url = {http://hdl.handle.net/10481/69446},
abstract = {Time-Sensitive Networking (TSN) is expected to be a
cornerstone in tomorrow’s industrial networks. That is because of
its ability to provide deterministic quality-of-service in terms of
delay, jitter, and scalability. Moreover, it enables more scalable,
more affordable, and easier to manage and operate networks
compared to current industrial networks, which are based on
Industrial Ethernet. In this article, we evaluate the maximum
capacity of the asynchronous TSN networks to accommodate
industrial traffic flows. To that end, we formally formulate the
flow allocation problem in the mentioned networks as a convex
mixed-integer non-linear program. To the best of the authors’
knowledge, neither the maximum utilization of the asynchronous
TSN networks nor the formulation of the flow allocation problem
in those networks have been previously addressed in the literature.
The results show that the network topology and the traffic matrix
highly impact on the link utilization.},
organization = {This work has been partially funded by the H2020 research
and innovation project 5G-CLARITY (Grant No. 871428), national
research project TRUE5G: PID2019-108713RB-C53},
publisher = {Institute of Electrical and Electronics Engineers (IEEE)},
title = {Asynchronous Time-Sensitive Networking for Industrial Networks},
author = {Prados Garzón, Jonathan and Chinchilla Romero, Lorena and Ameigeiras Gutiérrez, Pablo José and Muñoz Luengo, Pablo and López Soler, Juan Manuel},
}