Internet of Things in Automated Production

Cleiton Mendes; Raphael Osaki; Cesar Da Costa

doi:10.24018/ejeng.2017.2.10.499

Cleiton Mendes

Raphael Osaki

Cesar Da Costa

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Submitted Oct 16, 2017
Published Oct 25, 2017

10.24018/ejeng.2017.2.10.499

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Abstract

Industry 4.0 is being presented as the fourth industrial revolution in which intelligent machines, advanced sensors, and smart logistic networks and suppliers will be connected to the internet of things. Such an intelligent network would create a cyber-physical system that scan store all of the supply chain data in the cloud and allow access to these data through different devices connected to the internet. Thus, the factory of the future could be established. This project proposes the creation of a manufacturing cell at the shop floor level based on the concepts of Industry 4.0. The effects on production of industry 4.0 emerging with this mind is very important. Therefore, the impacts in production of industry 4.0 are examined in this paper.

Keywords: Cloud Internet of Things System Cyber-Physical

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References

D. Kwon, M. R. Hodkiewicz.; J. Fan, T. Shibutani, M. G. Pecht, “IoT–based prognostics and systems health management for industrial applications”. IEEE. v.4, p.2169-3536, Jul. 2016, DOI:10.1109/acess.20162587754.
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Google Scholar

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Google Scholar

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Google Scholar

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Google Scholar

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Google Scholar

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Cleiton Mendes

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EJ-ENG Journal

Raphael Osaki

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EJ-ENG Journal

Cesar Da Costa

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EJ-ENG Journal

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Vol. 2 No. 10: OCTOBER 2017

[1] D. Kwon, M. R. Hodkiewicz.; J. Fan, T. Shibutani, M. G. Pecht, “IoT–based prognostics and systems health management for industrial applications”. IEEE. v.4, p.2169-3536, Jul. 2016, DOI:10.1109/acess.20162587754.
Google Scholar

[2] H. Kagermann, W. Wolfgang, J. Helbig, “Recommendations for implementing the strategic initiative industry 4.0.” Frankfurt/Alemanha: Heilmeyerundsernau, 2013.
Google Scholar

[3] I. Lee and K. Lee, “The internet of things (IoT): applications, investments, and challenges for enterprises”, Business Horizons. vol. 58, n.4, pp. 431-440, Ago. 2015.
Google Scholar

[4] J. Lee, B. Bagheri, H. A. Kao, “A cyber-physical systems architecture for industry 4.0 – based manufacturing systems”. Manufacturing Letters. v. 3, p. 18-23, Jan. 2015.
Google Scholar

[5] J. Lee, B. Bagheri, H. A. Kao, “Recent advances and trends of cyber-physical systems and big data analytics in industrial informatics”. Proceeding of Int. Conference on Industrial Informatics. Cincinnati, 2014.
Google Scholar

[6] J. H. Ang, C. Goh, Y. LI, “Smart design for ships in a smart product through-life and industry 4.0 environment”. 2016 IEEE Congress on Evolutionary Computation (CEC), pp: 5301-5308, 2016.
Google Scholar

[7] A. Astarloa, U. Bidart, J. Jimenez, A. Zuloaga, J. Lazaro, “Intelligent gateway for Industry 4.0-compliant production”. IECON 2016 - 42nd Annual Conference of the IEEE Industrial Electronics Society, pp: 4902 – 4907, 2016.
Google Scholar

[8] J. Wan, M. Yi, D. Li, C. Zhang, S. Wang, K. Zhou, “Mobile Services for Customization Manufacturing Systems: An Example of Industry 4.0”. IEEE Journals & Magazines, Vol. 4, pp: 8977-8986, 2016.
Google Scholar

[9] M. Zarte, A. Pechmann, J. Wermann, F. Gosewehr, A. W. Colombo, “Building an Industry 4.0-compliant lab environment to demonstrate connectivity between shop floor and IT levels of an enterprise”. Industrial Electronics Society. IECON 2016, 42nd Annual Conference of the IEEE, 23-26 Oct. 2016.
Google Scholar

[10] K. Schwab, “The Fourth Industrial Revolution”. 1st Edition, World Economic Forum. Crown Busines: New York. ISBN: 9781524758869, 2016.
Google Scholar

[11] M. Wollschlaeger, T. Sauter, J. Jasperrneit, “The Future of Industrial Communication: Automation Networks in the Era of the Internet of Things and Industry 4.0”. IEEE Industrial Electronics Magazine, Vol. 11, pp: 17-27, 2016.
Google Scholar

[12] J. Wan, S. Tang, Z. Shu, D. Li, S. Wang, M. Imran, A. V. Vasilakos, “Software-Defined Industrial Internet of Things in the Context of Industry 4.0”. IEEE Sensors Journal, Vol. 16, no 20, pp: 7373-7380, 2016.
Google Scholar

[13] T. Y., Chen, Y. M. Yang, D. L. Chen, Y. C, “New Method for Industry 4.0 Machine Status Prediction - A Case Study with the Machine of a Spring Factory”. 2016 International Computer Symposium (ICS), pp: 322-326, 2016.
Google Scholar

[14] J. Bohuslava, J. Martin, H. Igor, “TCP/IP Protocol Utilization in Process of Dynamic Control of Robotic Cell According Industry 4.0 Concept”. 2017 IEEE 15th International Symposium on Applied Machine Intelligence and Informatics (SAMI), pp: 217-222, 2017.
Google Scholar

[15] M. Baygin, H. Yetis, M. Karakose, E. Akin, “An Effect Analysis of Industry 4.0 to Higher Education”. 2016 15th International Conference on Information Technology Based Higher Education and Training (ITHET), pp: 1-4, 2016.
Google Scholar

[16] K. Dequeant, P.Vialletele, P. Lemaire, M. L. Espinouse, “A literature review on variability in semiconductor manufacturing: The next forward leap to Industry 4.0”. 2016 Winter Simulation Conference (WSC), pp: 2598 – 2609, 2016.
Google Scholar

[17] M. Huba, S. Kozak, “From E- learning to Industry 4.0”. 2016 International Conference on Emerging eLearning Technologies and Applications (ICETA), 2016.
Google Scholar

Internet of Things in Automated Production

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