Intelligent Quality of Service Aware Traffic Forwarding for Software-Defined Networking/Open Shortest Path First Hybrid Industrial Internet

Driven by the emerging advanced information and communication technologies, e.g., artificial intelligence, 5G wireless communications, big data analytics, etc., industrial Internet serves as a key enabling technology to realize intelligent manufacturing, and has been attracting considerable attentio...

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Bibliographic Details
Published in:IEEE transactions on industrial informatics 2020-02, Vol.16 (2), p.1395-1405
Main Authors: Bi, Yuanguo, Han, Guangjie, Lin, Chuan, Peng, Yan, Pu, Huayan, Jia, Yazhou
Format: Article
Language:English
Subjects:
Algorithms
Artificial intelligence
Bandwidths
Computer simulation
Control systems
Decoupling
Fault detection
Industrial applications
Intelligent manufacturing systems
Internet
Minimum cost
Network reliability
Network topology
Predictive control
Predictive maintenance
Quality of service
quality of service (QoS)
Quality of service architectures
Remote control
Remote monitoring
Routers
Routing protocols
SDN/OSPF hybrid industrial Internet
Shortest-path problems
Software
Software reliability
Software-defined networking
software-defined networking (SDN)
Switches
Switching theory
Topology
Traffic congestion
Wireless communications
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Summary:Driven by the emerging advanced information and communication technologies, e.g., artificial intelligence, 5G wireless communications, big data analytics, etc., industrial Internet serves as a key enabling technology to realize intelligent manufacturing, and has been attracting considerable attentions from academia and industry. However, the traditional industrial networks can hardly satisfy the quality of service (QoS) requirements for some mission-critical industrial applications (e.g., fault detection, advanced control, remote monitoring, predictive maintenance, etc.) due to network heterogeneity, traffic congestion, dynamic end-to-end latency, reliability issues, and so on. The emerging software-defined networking (SDN) has been considered as a promising architecture to improve the QoS of industrial applications by flexibly decoupling the control and data planes to control the network behaviours centrally. Owing to economy and policy considerations, a realistic solution is to incrementally deploy SDN in industrial networks instead of fully replacing traditional industrial routers with SDN-enabled switches. In this article, we consider a hybrid Industrial network consisting of conventional routers (e.g., running OSPF protocol) and SDN-enabled switches (e.g., running OpenFlow protocol), and propose an intelligent QoS-aware forwarding strategy to improve the QoS of industrial applications, by utilizing a single path minimum cost forwarding scheme and a K-path partition algorithm for multipath forwarding. Simulation results demonstrate that the proposed scheme not only guarantees the QoS requirements of industrial services, but also efficiently utilizes bandwidth resources by balancing traffic load in the SDN/OSPF hybrid industrial Internet.
ISSN:1551-3203
1941-0050
DOI:10.1109/TII.2019.2946045