Abstract
The work is aimed at researching and developing an innovative subject field Industrial Internet of Things. The article deals with the system of the structure of the Industrial Internet of Things, the relationship between the objects of structure and the method of knowledge visualization with the help of ontological modeling of systems. Using the ontological approach allows us to provide support for design management, as well as further improvement of the complex technical system under consideration. The paper presents the ontology of the Industrial Internet of Things.
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References
Roslyakov, A.V.: Internet of Things. news of the Russian academy of sciences. Theory Control Syst. 5, 75–88 (2015)
IoT Reference Model Whitepaper. http://www.iotwf.com/resources/71
Sundmaeker, H., Guillemin, P., Friess, P., Woelffle, S. (eds.): Vision and Challenges for realizing the Internet of Things. EU, CERP IoT, Luxembourg (2010)
Industrial Internet of Things (electronic resource). http://json.tv/ict_telecom_analytics_view.ru,free. Title from the screen
Gruber, T.R.: A translation approach to portable ontologies. Knowl. Acquis. 5(2), 199–220 (1993)
Guarino, N.: Formal ontology, conceptual analysis and knowledge representation. Int. J. Hum. Comput. Stud. 43(5–6), 625–640 (1995)
Kovalev, S.M., Tarassov, V.B., Koroleva, M.N., et al.: Towards intelligent measurement in railcar on-line diagnostics: from measurement ontologies to hybrid information granulation system. In: Abraham, A., Kovalev, S., Tarassov, V., et al. (eds.) (IITI 2017). AISC, vol. 679, pp. 169–181. Springer, Varna (2017)
Petrochenkov, A.B., Bochkarev, S.V., Ovsyannikov, M.V., Bukhanov, S.A.: Construction of an ontological model of the life cycle of electrotechnical equipment. Russ. Electr. Eng. 86(6), 320–325 (2015)
Sowa, J.F.: Top-Level ontological categories. Int. J. Hum. Comput. Stud. 43(5–6), 669–685 (1995)
Fedotova, A.V., Davydenko, I.T., Pförtner, A.: Design intelligent lifecycle management systems based on applying of semantic technologies. In: Proceedings of the First International Scientific Conference Intelligent Information Technologies for Industry (IITI 2016), vol. 1, pp. 251–260. Springer Sochi (2016)
Fedotova, A.V., Tabakov, V.V., Ovsyannikov, M.V.: Ontological modeling for industrial enterprise engineering. In: Abraham, A., et al. (eds.) IITI 2018. AISC, vol. 874, pp. 182–189. Springer, Sochi (2019)
Sokolov, A.P., Pershin, A.Yu.: Computer-aided design of composite materials using reversible multiscale homogenization and graph-based software engineering. Key Eng. Mater. 779(2018), 11–18 (2018)
Kuzenov, V.V., Ryzhkov, S.V.: Numerical modeling of laser target compression in an external magnetic field. Math. Models Comput. Simul. 10, 255–264 (2018)
Tarasov V.B.: Enterprise engineering and organizational ontologies. In: Enterprise Engineering and Knowledge Management. Collection of Scientific Papers of the XVIIIth Scientific-Practical Conference (IP & UZ). pp. 25–41. MESI, Moscow (2015)
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Fedotova, A.V., Lindow, K., Norbach, A. (2020). Development of an Industrial Internet of Things Ontologies System. In: Kovalev, S., Tarassov, V., Snasel, V., Sukhanov, A. (eds) Proceedings of the Fourth International Scientific Conference “Intelligent Information Technologies for Industry” (IITI’19). IITI 2019. Advances in Intelligent Systems and Computing, vol 1156. Springer, Cham. https://doi.org/10.1007/978-3-030-50097-9_66
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DOI: https://doi.org/10.1007/978-3-030-50097-9_66
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