Abstract
The fourth industrial revolution or Industry 4.0 is already present around us, but the concept itself is not widespread. The implementation of Industry 4.0 will improve many aspects of human life in all segments. The implementation will initiate changes in business paradigms and manufacturing models, which will be reflected on all levels of manufacturing processes, as well as supply chains, including all workers in the manufacturing process, managers, cyber-physical system designers, and end-users. We are witness to big changes in all industry branches, with new business methods, product system transformation, consumption, delivery and transportation emerging, owing to the implementation of new technological discoveries that include: robotics & automation, Internet of Things (IoT), 3D printers, smart sensors, Radio Frequency Identification (RFID,) etc. The implementation strategy of Industry 4.0 is to enable the adjustment of industrial production to complete intelligent automation, which means introducing self-automation, self-configuration, self-diagnosis and problem-solving, knowledge and intelligent decision-making. On the other hand, there are many challenges in the coming period, such as issues of changing business paradigms, legal issues, resource planning, security issues, standardization issues, and many other. We must point out that the success or failure to implement Industry 4.0 lies in the hands of all participants in the production chain, from the manufacturer to the end-users.
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References
Klaus, S.: The Fourth Industrial Revolution, World Economic Forum, Geneva, Switzerland (2016). https://luminariaz.files.wordpress.com/2017/11/the-fourth-industrial-revolution-2016-21.pdf
Isak, K.: The role of industrial and service robots in fourth industrial revolution with focus on China. J. Eng. Archit. 5(2), December 2017. Published by American Research Institute for Policy Development, USA, ISSN 2334-2986 (Print), 2334-2994 (Online), pp. 110–117. http://jea-net.com/journals/jea/Vol_6_No_1_June_2018/7.pdf, https://doi.org/10.15640/jea.v5n2a9
Crnjac, M., Veža, I., Banduka, N.: From concept to the introduction of industry 4.0. Int. J. Ind. Eng. Manag. (IJIEM), 8(1), 21–30 (2017). https://www.researchgate.net/publication/319007861_From_concept_to_the_introduction_of_industry_40
Isak, K., Karabegović, E., Mahmić, M., Husak, E.: Contribution of fourth industrial revolution to production processes in China. In: 1st International Conference “Engineering and Entrepreneurship”, ICEE-2017, Tirana, Albania, 17–18 November 2017, Proceedinga Book, pp. 295–301 (2017). ISBN 987-9928-146-47-2
Isak, K., Karabegović, E., Mahmić, M., Husak, H.: Applicationof new technologies in final product sales for clothing industry. In: 8th Scientific-Professional Symposium Textile Science and Economy, Zagreb, Croatia, pp. 128–131, 26 January 2015 (2015). ISSN 1847-2877
Nikolić, G., Katalinić, B., Rogale, D., Jerbić, B., Čubrić, G.: Roboti & primjena u industriji tekstila i odjeće. Tekstilno-Tehnološki fakultet Zagreb, Zagreb (2008)
Gojko, N.: Industrija 4.0 – pravac razvoja tekstilne i odjevne industrije. Tekstil 66, (3–4), Tekstilo-tehnološki fakultet Zagreb, Hrvatska, pp. 65–73. ISSN 0492-5882. file:///C:/Users/isak/Downloads/Nikolic_Rogale_Tekstil_3_4_2017%20(4).pdf
Vlatko, Doleček: Karabegović Isak. Roboti u industriji, Tehnički fakultet Bihać, Bihać (2008)
Knez, B., Miličić, J., Rudan, R., Szirovieza, L., Taboršak, D.: Primjenjena antropometrija za antropologiju, biomedicine, ergonomiju i standardizaziju, Priručnik za terensko istraživanje Republike Hrvatske, Ministarstvo odbrane, Zagreb (1995)
d’Aquin, M.: Data analytics beyond data processing and how it affects Industry 4.0, Insight Centre for Data Analytic, Dublin, Irska (2017). https://www.slideshare.net/mdaquin/data-analytics-beyond-data-processing-and-how-it-affects-industry-40
Kusmin, K.-L.: Industry 4.0 Analytical Article, IFI8101 - Information Society Approaches and ICT Processes, School of Digital Technologies, Tallinn University, Estonia (2016). http://www.tlu.ee/~pnormak/ISA/Analytical%20articles/2-Industry%204.0%20-%20Kusmin.pdf
Bechtold, J., Lauenstein, C., Kern, A., Bernhofer, L.: Executive Summary: The Capgemini Consulting Industry 4.0 Framework, Capgemini Consulting, Pariz (2014). https://www.capgemini.com/consulting/wp-content/uploads/sites/30/2017/07/capgemini-consulting-industrie-4.0_0_0.pdf
Davies, R.: Industry 4.0: Digitalisation for productivity and growth. http://www.europarl.europa.eu/RegData/etudes/BRIE/2015/568337/EPRS_BRI(2015)568337_EN.pdf
Bunse, B., Kagermann, H., Wahlster, W.: Smart Manufacturing for the Future, Germany Trade & Invest, Berlin, Germany (2017). http://belarus.ahk.de/fileadmin/ahk_belarus/Publikationen/GTAI_industrie4.0-smart-manufacturing-for-the-future-en__1_.pdf
Must, I., Anton, M., Kruusmaa, M., Aabloo, A.: Linear modeling of elongated bending EAP actuator at large deformations. In: Proceedings of the SPIE, vol. 7287, 72870V (2009). https://www.researchgate.net/publication/236115802_Linear_modeling_of_elongated_bending_EAP_actuator_at_large_deformations
Isak, K., Ujević, D., Hodžić, D.: Intelligent system for manufacturing of clothes on distance. In: 86th Textile Institute World Conference, Fashion and Textiles: Heading Towards New Horizons, Hong Kong, 18–21 November 2008, pp. 928–934 (2008)
Isak, K., Kadić, S., Ujević, D.: Application of modular robotization line and intelligent textiles in clothing production. In: 2nd DAAAM International Conference on Advanced Technologies for Developing Countries - ATDC 2003, Tuzla, BiH, 25–27 juni 2003, pp. 207–202 (2003)
Sihn, W., Jäger, A., Hummel, V., Ranz, F.: Implications for Learning Factories from Industry 4.0, ESB Business School, Reutlingen University, Reutlingen (2016). https://www.kth.se/polopoly_fs/1.481977!/industry%204.0%20-%20full.pdf
Chand, S.: The Smart Factory – Risk Management Perspectives, CRO Forum, Amsterdam, Netherlands (2015). file:///C:/Users/isak/Downloads/cro-the-smart-factory%20(2).pdf
Ermel, U., Hülsebusch, M.: Industrial IoT Risk Assessment of Smart Factories, PLUS-2016, Munchen, Deutschland (2016). http://www.fair-module-backend.int.live.fsnmm.de
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Karabegović, I., Karabegović, E., Mahmić, M., Husak, E. (2020). Implementation of Industry 4.0 and Industrial Robots in the Manufacturing Processes. In: Karabegović, I. (eds) New Technologies, Development and Application II. NT 2019. Lecture Notes in Networks and Systems, vol 76. Springer, Cham. https://doi.org/10.1007/978-3-030-18072-0_1
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