Abstract
Interoperability is of high focus for the manufacturing industry that is currently undergoing a transformation into the fourth industrial revolution. Factories are adopting smart technologies and implementing decentralized and human-centered manufacturing systems. To use ICT for cognitive automation and information sharing is becoming more common and increasingly important for factory workers. To implement these ICT solutions, it is important to consider their interoperability with the entire manufacturing system. This study suggests a framework that combines the context of human-centered manufacturing with areas of concerns in enterprise systems. The framework is presented and discussed regarding its usefulness to assess and/or improve system interoperability.
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References
Hermann, M., Pentek, T., Otto, B.: Design principles for industrie 4.0 scenarios. In: 49th Hawaii International Conference on System Sciences (HICSS), Hawaii (2016)
Agostinho, C., Ducq, Y., Zacharewicz, G., Sarraipa, J., Lampathaki, F., Poler, R., et al.: Towards a sustainable interoperability in networked enterprise information systems: trends of knowledge and model-driven technology. Comput. Ind. 79, 64–76 (2016)
C4ISR: Levels of information systems interoperability (LISI) (1998)
Clark, T., Jones, R.: Organisational interoperability maturity model for C2 (1999)
Guédria, W., Naudet, Y., Chen, D.: A maturity model assessing interoperability potential. In: Halpin, T., Nurcan, S., Krogstie, J., Soffer, P., Proper, E., Schmidt, R., Bider, I. (eds.) BPMDS/EMMSAD-2011. LNBIP, vol. 81, pp. 276–283. Springer, Heidelberg (2011). https://doi.org/10.1007/978-3-642-21759-3_20
Koussouris, S., Lampathaki, F., Mouzakitis, S.: Digging into real-life enterprise interoperability areas: definition and overview of the main research areas. In: Proceedings of CENT (2011)
Chen, D., Daclin, N.: Framework for enterprise interoperability. In: Proceedings of IFAC Workshop EI2N, pp. 77–88 (2006)
Rezaei, R., Chiew, T.K., Lee, S.P., Aliee, Z.S.: Interoperability evaluation models: a systematic review. Comput. Ind. 65, 1–23 (2014)
ElMaraghy, H.A.: Flexible and reconfigurable manufacturing systems paradigms. Int. J. Flex. Manuf. Syst. 17, 261–276 (2006)
Karlsson, M., Mattsson, S., Fast-Berglund, Å., Stahre, J.: Could the use of ICT tools be the way to increase competitiveness in Swedish industry? IFAC Proc. Volumes 46, 179–186 (2013)
Bauernhansl, P.D.T., Diegner, D.B., Diemer, J., Dümmler, D.M., Eckert, P.D.C., Herfs, D.W., et al.: Industrie 4.0 - Whitepaper FuE-Themen (2014)
Kagermann, H., Wahlster, W., Johannes, H.: Recommendations for implementing the strategic initiative industrie 4.0 (2013)
Lorenz, M., Rüßmann, M., Strack, R., Lueth, K.L., Bolle, M.: Man and machine in industry 4.0 (2015)
Schuh, G., Potente, T., Varandani, R., Hausberg, C., Fränken, B.: Collaboration moves productivity to the next level (2014)
Breitfelder, K., Messina, D. (eds.): The Authoritative Dictionary of IEEE Standards Terms, 7th edn., p. 582. Standards Information Network. IEEE Press (2000)
Moghaddam, M., Nof, S.Y.: The collaborative factory of the future. Int. J. Comput. Integr. Manuf. 30, 23–43 (2017)
Frohm, J., Lindström, V., Stahre, J., Winroth, M.: Levels of automation in manufacturing. Ergonomia Int. J. Ergonomics Hum. Factors 30 (2008)
Åkerman, M., Fast-Berglund, Å., Ekered, S.: Interoperability for a dynamic assembly system. Procedia CIRP 44, 407–411 (2016)
Åkerman, M.: mogas - Management of Generic Automation Systems (2016)
Drath, R., Lüder, A., Peschke, J., Hundt, L.: AutomationML - the glue for seamless automation engineering. In: IEEE International Conference on Emerging Technologies and Factory Automation (ETFA), pp. 616–623 (2008)
What is IO-Link? (2017). http://www.io-link.com/en/Technology/what_is_IO-Link.php?thisID=76
Åkerman, M., Fast-Berglund, Å., Karlsson, M., Stahre, J.: Introducing customized ICT for operators in manufacturing. Procedia CIRP 41, 490–495 (2016)
Play Framework. https://www.playframework.com/
Opc Foundation. https://opcfoundation.org/
ANSI/ISA: Enterprise Control System Integration Part 3: Activity Models of Manufacturing Operations Management (2005)
AutomationML. https://www.automationml.org/o.red.c/home.html
Vyatkin, V.: Software engineering in industrial automation: state-of-the-art review. IEEE Trans. Ind. Inform. 9, 1234–1249 (2013)
Åkerman, M.: Towards interoperable information and communication systems for manufacturing operations. Institutionen för produkt- och produktionsutveckling, Produktionssystem, Chalmers tekniska högskola, Göteborg (2016)
Acknowledgements
This paper is adapted from a licentiate thesis written by Åkerman [28], available online. The work has been carried out within the Production Area of Advance at Chalmers University of Technology and has been funded by VINNOVA (Swedish Agency for Innovation Systems). Their support is gratefully acknowledged.
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Åkerman, M., Fast-Berglund, Å. (2018). Interoperability for Human-Centered Manufacturing. In: Debruyne, C., et al. On the Move to Meaningful Internet Systems. OTM 2017 Workshops. OTM 2017. Lecture Notes in Computer Science, vol 10697. Springer, Cham. https://doi.org/10.1007/978-3-319-73805-5_8
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DOI: https://doi.org/10.1007/978-3-319-73805-5_8
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