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СКАЧАТЬ Y., and Grosvenor, R. (2016). A categorical framework of manufacturing for industry 4.0 and beyond. Procedia CIRP 52: 173–178.

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      17 17 Romero, D., Bernus, P., Noran, O., Stahre, J., and Fast-Berglund, A. (Sep 2016). The operator 4.0: human cyber-physical systems & adaptive automation towards human-automation symbiosis work systems. In: Advances in Production Management Systems. Initiatives for a Sustainable World (ed. I. Naas, O. Vendrametto, J.M. Reis, R.F. Goncalves, M.T. Silva, V.C. Gregor, and D. Kiritsis), 677–686. Springer International Publishing.

      18 18 Hahn, T. (Aug 2014). Future of manufacturing: view on enabling technologies. Siemens Corporate Technology. https://opcfoundation.org/wp-content/uploads2014/09/3_140805_OPC_Foundation_Redmond_v7a_incl_Siemens_Slides_20140731.pdf.

      19 19 Taiwan, D. (Sep 2015). Challenges and Solutions for the Digital Transformation and Use of Exponential. https://www2.deloitte.com/tw/en/pages/manufacturing/articles/industry4-0.html.

      20 20 Posada, J., Toro, C., Barandiaran, I., Oyarzun, D., Stricker, D., De Amicis, R., Pinto, E. B., Eisert, P., Dollner, J., and Vallarino, I. (2015). Visual computing as a key enabling technology for Industrie 4.0 and industrial Internet. IEEE Comput. Graph. Appl. 35 (2): 26–40.

      21 21 Zhou, K., Liu, T., and Lifeng, Z. (2015). Industry 4.0: towards Future Industrial Opportunities and Challenges. 2015 12th International Conference on Fuzzy Systems and Knowledge Discovery (FSKD), 2147–2152.

      22 22 Hermann, M., Pentek, T., and Otto, B. (2016). Design Principles for Industrie 4.0 Scenarios. 2016 49th Hawaii International Conference on System Sciences (HICSS), 3928–3937.

      23 23 Lee, J., Bagheri, B., and Kao, H.-A. (2015). A cyber-physical systems architecture for industry 4.0-based manufacturing systems. Manuf. Lett. 3: 18–23.

      24 24 Francalanza, E., Borg, J., Constantinescu, C. (2017). A knowledge-based tool for designing cyber physical production systems. Comput. Ind. 84: 39–58.

      25 25 Xu, L.D., He, W., and Li, S. (2014). Internet of Things in Industries: a Survey. IEEE Trans. Industr. Inform. 10 (4): 2233–2243.

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      27 27 Mourtzis, D., Vlachou, E., and Milas, N. (2016). Industrial big data as a result of IoT adoption in manufacturing. Procedia CIRP 55: 290–295.

      28 28 Sisinni, E., Saifullah, A., Han, S., Jennehag, U., and Gidlund, M. (2018). Industrial Internet of things: Challenges, opportunities, and directions. IEEE Trans. Industr. Inform. 14 (11): 4724–4734.

      29 29 Baida, Z., Gordijn, J., and Omelayenko, B. (2004). A shared service terminology for online service provisioning. Proceedings of the 6th International Conference on Electronic Commerce, ICEC’04, 1–10, New York, NY. Association for Computing Machinery.

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      31 31 National Electrical Code@. National Fire Protection Association- NFPA 70@. https://www.nfpa.org/codes-and-standards/all-codes-and-standards/list-of-codes-and-standards/detail?code=70.

      32 32 Bajracharya, R., Shrestha, R., Zikria, Y.B., and Kim, S.W. (2018). LTE in the unlicensed spectrum: A survey. IETE Tech. Rev. 35 (1): 78–90.

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      34 34 Nadas, J.P.B., Zhao, G., Souza, R.D., and Muhammad, A.I. (2020). Ultra reliable low latency communications as an enabler for industry automation. In: Wireless Automation as an Enabler for the Next Industrial Revolution (ed. S. Hussain, M.A. Imran, and Q.H. Abbasi), 89–107. John Wiley & Sons, Ltd.

      35 35 Karaki, R., Cheng, J., Obregon, E., Mukherjee, A., Kang, D.H., Falahati, S., Koorapaty, H., and Drugge, O. (2017). Uplink Performance of Enhanced Licensed Assisted Access (eLAA) in Unlicensed Spectrum. In 2017 IEEE Wireless Communications and Networking Conference (WCNC), 1–6.

      36 36 Bajracharya, R., Shrestha, R., and Jung, H. (May 2020). Future is unlicensed: Private 5G unlicensed network for connecting industries of future. Sensors 20 (10): 2774.

      37 37 Lu, X., Petrov, V., Moltchanov, D., Andreev, S., Mahmoodi, T., and Dohler, M. (2019). 5G-U: Conceptualizing integrated utilization of licensed and unlicensed spectrum for future IoT. IEEE Commun. Mag. 57 (7): 92–98.

      38 38 Tombaz, S., Frenger, P., Athley, F., Semaan, E., Tidestav, C., and Fu- Ruskar, A. (2015). Energy Performance of 5G-NX Wireless Access Utilizing Massive Beamforming and an Ultra-Lean System Design. In 2015 IEEE Global Communications Conference (GLOBECOM), 1–7.

      39 39 СКАЧАТЬ