Kannisto.org

Petri Kannisto's homepage – about software systems and research

Plant-wide interoperability and decoupled, data-driven process control with message bus communication

P. Kannisto, D. Hästbacka, T. Gutiérrez, O. Suominen, M. Vilkko, and P. Craamer, "Plant-wide interoperability and decoupled, data-driven process control with message bus communication", Journal of Industrial Information Integration, vol. 26, p. 100253, 2022. DOI: 10.1016/j.jii.2021.100253

ISSN2452-414X
LicenseCC BY 4.0
Cite
The citations cannot be guaranteed to be in the correct format!

APA

Kannisto, P., Hästbacka, D., Gutiérrez, T., Suominen, O., Vilkko, M., & Craamer, P. (2022). Plant-wide interoperability and decoupled, data-driven process control with message bus communication. Journal of Industrial Information Integration, 26, 100253. https://doi.org/10.1016/j.jii.2021.100253
Download APA

Bibtex

@article{kannisto_et_al2022plantwide,
    year = {2022},
    author = {Kannisto, Petri and Hästbacka, David and Gutiérrez, Teresa and Suominen, Olli and Vilkko, Matti and Craamer, Peter},
    title = {Plant-wide interoperability and decoupled, data-driven process control with message bus communication},
    pages = {100253},
    journal = {Journal of Industrial Information Integration},
    volume = {26},
    issn = {2452-414X},
    doi = {10.1016/j.jii.2021.100253},
    url = {https://doi.org/10.1016/j.jii.2021.100253}
}
Download Bibtex

IEEEtran

P. Kannisto, D. Hästbacka, T. Gutiérrez, O. Suominen, M. Vilkko, and P. Craamer, "Plant-wide interoperability and decoupled, data-driven process control with message bus communication", Journal of Industrial Information Integration, vol. 26, p. 100253, 2022. DOI: 10.1016/j.jii.2021.100253
Download IEEEtran
Full text

Related items at Kannisto.org

Research project(s): COCOP

Software: COCOP Toolkit

Keywords

Systems integration; Service-oriented architecture; Industrial cyber-physical systems; Industry 4.0; Publish–subscribe communication pattern

Abstract

Conventional industrial communication systems suffer from rigidness, inflexibility and lack of scalability. The environment is heterogeneous as the systems exchange data with a variety communication protocols, some of which are proprietary. This makes it laborious and expensive to reconfigure or upgrade the systems. As the solution, this article proposes a message-bus-based communication architecture to enable information exchange between systems regardless of their geographical location and position within the functional hierarchy of the plant. The architecture not only enables communication to cross the conventional physical borders but also provides scalability to growing data volumes and network sizes. As proofs of concept, the article presents a prototype in three environments: a copper smelter, a steel plant and a distillation column. The results suggest that the message-bus-based approach has potential to renew industrial communications, a core part of the fourth industrial revolution.