A multi-level IIOT platform for boosting mines digitalization

Research output: Contribution to journalArticleResearchpeer-review

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A multi-level IIOT platform for boosting mines digitalization. / Minon, Raul; Lopez-de-Armentia, Juan; Bonilla, Lander et al.
In: Future generation computer systems, Vol. 163.2025, No. February, 107501, 27.08.2024.

Research output: Contribution to journalArticleResearchpeer-review

Harvard

Minon, R, Lopez-de-Armentia, J, Bonilla, L, Brazaola, A, Lana, I, Palacios, MC, Mueller, S, Blaszczak, M, Zeiner, H, Tschuden, J, Quadri, MJ, Garcia-Mila, I, Bartoli, A, Gomolla, N, Fernandez, A, Segarra, P, Sanchidrián, JA & Hartlieb, P 2024, 'A multi-level IIOT platform for boosting mines digitalization', Future generation computer systems, vol. 163.2025, no. February, 107501. https://doi.org/10.1016/j.future.2024.107501

APA

Minon, R., Lopez-de-Armentia, J., Bonilla, L., Brazaola, A., Lana, I., Palacios, M. C., Mueller, S., Blaszczak, M., Zeiner, H., Tschuden, J., Quadri, M. J., Garcia-Mila, I., Bartoli, A., Gomolla, N., Fernandez, A., Segarra, P., Sanchidrián, J. A., & Hartlieb, P. (2024). A multi-level IIOT platform for boosting mines digitalization. Future generation computer systems, 163.2025(February), Article 107501. https://doi.org/10.1016/j.future.2024.107501

Vancouver

Minon R, Lopez-de-Armentia J, Bonilla L, Brazaola A, Lana I, Palacios MC et al. A multi-level IIOT platform for boosting mines digitalization. Future generation computer systems. 2024 Aug 27;163.2025(February):107501. doi: 10.1016/j.future.2024.107501

Author

Minon, Raul ; Lopez-de-Armentia, Juan ; Bonilla, Lander et al. / A multi-level IIOT platform for boosting mines digitalization. In: Future generation computer systems. 2024 ; Vol. 163.2025, No. February.

Bibtex - Download

@article{fea85a056c524ff19010847a0dce19cd,
title = "A multi-level IIOT platform for boosting mines digitalization",
abstract = "This paper presents an innovative IIoT multi-level platform tailored to address the specific needs of the mining domain. The platform has been conceptualized and built in the context of the illuMINEation European project. For this purpose, mining specific use cases have been designed such as promoting underground safe areas, performing efficient mining operations or boosting predictive maintenance approaches. Then, specific requirements have been identified and, as a result, the platform has been developed. It consists of four-level layered platform: (1) edge devices layer to manage several sensors deployed in the mines; (2) edge box layer to provide in-mine operations such as filtering, streaming and processing; (3) fog layer which offers an overall perspective of each mine; and (4) cloud layer to centralize the data of all the mines and to provide powerful processing capabilities. In addition, the platform is robustly secured in terms of protecting communications confidentiality and access control and also provides a toolbox aimed at manipulating 3D complex images to obtain operable mine-domain novel user interfaces. Finally, a platform validation is proposed where three different use cases are explained to better show and demonstrate the capabilities of the platform.",
keywords = "Big data, Cloud continuum, Edge, Fog, Mine digitalization",
author = "Raul Minon and Juan Lopez-de-Armentia and Lander Bonilla and Aitor Brazaola and Ibai Lana and Palacios, {M. Carmen} and Szymon Mueller and Michal Blaszczak and Herwig Zeiner and Julia Tschuden and Quadri, {Mohmammad Jusuf} and Ignasi Garcia-Mila and Andrea Bartoli and Norbert Gomolla and Alberto Fernandez and Pablo Segarra and Sanchidri{\'a}n, {Jos{\'e} Angel} and Philipp Hartlieb",
note = "Publisher Copyright: {\textcopyright} 2024",
year = "2024",
month = aug,
day = "27",
doi = "10.1016/j.future.2024.107501",
language = "English",
volume = "163.2025",
journal = "Future generation computer systems",
issn = "0167-739X",
publisher = "Elsevier",
number = "February",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - A multi-level IIOT platform for boosting mines digitalization

AU - Minon, Raul

AU - Lopez-de-Armentia, Juan

AU - Bonilla, Lander

AU - Brazaola, Aitor

AU - Lana, Ibai

AU - Palacios, M. Carmen

AU - Mueller, Szymon

AU - Blaszczak, Michal

AU - Zeiner, Herwig

AU - Tschuden, Julia

AU - Quadri, Mohmammad Jusuf

AU - Garcia-Mila, Ignasi

AU - Bartoli, Andrea

AU - Gomolla, Norbert

AU - Fernandez, Alberto

AU - Segarra, Pablo

AU - Sanchidrián, José Angel

AU - Hartlieb, Philipp

N1 - Publisher Copyright: © 2024

PY - 2024/8/27

Y1 - 2024/8/27

N2 - This paper presents an innovative IIoT multi-level platform tailored to address the specific needs of the mining domain. The platform has been conceptualized and built in the context of the illuMINEation European project. For this purpose, mining specific use cases have been designed such as promoting underground safe areas, performing efficient mining operations or boosting predictive maintenance approaches. Then, specific requirements have been identified and, as a result, the platform has been developed. It consists of four-level layered platform: (1) edge devices layer to manage several sensors deployed in the mines; (2) edge box layer to provide in-mine operations such as filtering, streaming and processing; (3) fog layer which offers an overall perspective of each mine; and (4) cloud layer to centralize the data of all the mines and to provide powerful processing capabilities. In addition, the platform is robustly secured in terms of protecting communications confidentiality and access control and also provides a toolbox aimed at manipulating 3D complex images to obtain operable mine-domain novel user interfaces. Finally, a platform validation is proposed where three different use cases are explained to better show and demonstrate the capabilities of the platform.

AB - This paper presents an innovative IIoT multi-level platform tailored to address the specific needs of the mining domain. The platform has been conceptualized and built in the context of the illuMINEation European project. For this purpose, mining specific use cases have been designed such as promoting underground safe areas, performing efficient mining operations or boosting predictive maintenance approaches. Then, specific requirements have been identified and, as a result, the platform has been developed. It consists of four-level layered platform: (1) edge devices layer to manage several sensors deployed in the mines; (2) edge box layer to provide in-mine operations such as filtering, streaming and processing; (3) fog layer which offers an overall perspective of each mine; and (4) cloud layer to centralize the data of all the mines and to provide powerful processing capabilities. In addition, the platform is robustly secured in terms of protecting communications confidentiality and access control and also provides a toolbox aimed at manipulating 3D complex images to obtain operable mine-domain novel user interfaces. Finally, a platform validation is proposed where three different use cases are explained to better show and demonstrate the capabilities of the platform.

KW - Big data

KW - Cloud continuum

KW - Edge

KW - Fog

KW - Mine digitalization

UR - http://www.scopus.com/inward/record.url?scp=85202934351&partnerID=8YFLogxK

U2 - 10.1016/j.future.2024.107501

DO - 10.1016/j.future.2024.107501

M3 - Article

VL - 163.2025

JO - Future generation computer systems

JF - Future generation computer systems

SN - 0167-739X

IS - February

M1 - 107501

ER -