Key Directions in Changes from Steelworks 3.0 to Steelworks 4.0 with Analysis of Selected Technologies of Digitalizing the Steel Industry in Poland

[1] K. Schwab, The Fourth Industrial Revolution, Davos: World Economic Forum, 2016. Search in Google Scholar

[2] H. Kagermann, J. Helbig, A. Hellinger, W. Wahlster, Recommendations for Implementing the Strategic Initiative INDUSTRIE 4.0: Securing the Future of German Manufacturing Industry, Final Report of the Industrie 4.0 Working Group, Forschungsunion, 2013.10.3390/sci4030026 Search in Google Scholar

[3] M. Hermann, T. Pentek, B. Otto, “Design Principles for Industrie 4.0 Scenarios”, in 49^th Hawaii International Conference on System Sciences (HICSS), IEEE, 2016, pp. 3928-3937.10.1109/HICSS.2016.488 Search in Google Scholar

[4] D. Romero, J.,Stahre, T. Wuest, O. Noran, P. Bernus, Å. Fast-Berglund, D. Gorecky, “Towards an Operator 4.0 Typology: A Human-Centric Perspective on the Fourth Industrial Revolution Technologies”, in Proceedings of the International Conference on Computers and Industrial Engineering (CIE46), Tianjin, China, Vol. 11 (29-31), pp. 1-11, October 2016. Search in Google Scholar

[5] P. Wittbrodt, I. Łapuńka, “Przemysł 4.0 – wyzwanie dla współczesnych przedsiębiorstw produkcyjnych”, in: Innowacje w Zarządzaniu i Inżynierii Produkcji, R. Knosala (ed.), t. 2, Oficyna Wydawnicza Polskiego Towarzystwa Zarządzania Produkcją, Opole 2017, pp. 793-799. Search in Google Scholar

[6] E. Flores, X. Xu, Y. Lu, “Human Cyber-Physical Systems: A skill-based correlation between humans and machines” in, 16^th IEEE International Conference on Automation Science and Engineering (CASE) August 20-21, 2020, pp. 1313-1318.10.1109/CASE48305.2020.9216843 Search in Google Scholar

[7] Ch. Neef, S. Hirzel, M. Arens, Industry 4.0 in the European Iron and Steel Industry: Towards an Overview of Implementations and Perspectives Working document, Fraunhofer Institute for Systems and Innovation Research ISI, Karlsruhe, Germany, 05. September 2018. Search in Google Scholar

[8] Blueprint “New Skills Agenda Steel”: Industry-driven sustainable European Steel Skills Agenda and Strategy (ESSA). Search in Google Scholar

[9] S. Grabowska, Model biznesu 4.0. Architektura, tworzenie wartości, ocean konkurencyjności i efektywności, Toruń: TNOiK, 2021. Search in Google Scholar

[10] A. Jabłoński, “Twórczy model biznesu w koncepcji gospodarki sieciowej”. Studia i Prace Kolegium Zarządzania i Finansów. Zeszyty Naukowe, vol. 162, pp. 175-192, 2018.10.33119/SIP.2018.162.12 Search in Google Scholar

[11] S.K. Rao, R. Prasad, “Impact of 5G Technologies on Industry 4.0”, Wireless Personal Communications, Vol. 100, No. 1, pp. 145-159, 2018.10.1007/s11277-018-5615-7 Search in Google Scholar

[12] R. Niedbał, A. Wrzalik, A. Sokołowski, “Czwarta rewolucja przemysłowa jako wyzwanie utrzymania konkurencyjności przedsiębiorstwa”, Marketing i Rynek, No 7, pp. 557-570, 2017. Search in Google Scholar

[13] V. Ramaswamy, “It’s about human experience… and beyond, to co-creation”, Industrial Marketing Management, No. 40, pp. 195-196, 2011.10.1016/j.indmarman.2010.06.030 Search in Google Scholar

[14] Mc Kinsey, Industry 4.0 How to navigate digitization of the manufacturing sector. 2015. Retrivered from: http://www.forschungsnetzwerk.at/downloadpub/mck_industry_40_report.pdf. 201510.1016/S1365-6937(15)30340-3 Search in Google Scholar

[15] B. Gajdzik, S. Grabowska, S. Saniuk, “A Theoretical Framework for Industry 4.0 and Its Implementation with Selected Practical Schedules”, Energies, Vol. 14(1), 129, 2021; https://doi.org/10.3390/en14010129.10.3390/en14010129 Search in Google Scholar

[16] W. Cellary, “Przemysł 4.0 i Gospodarka 4.0”, Biuletyn PTE Part I: Olimpiada wiedzy ekonomicznej, No. 3(86), August 2019. Search in Google Scholar

[17] J. Lee, B. Bagheri, H. Kao, “Research Letters: A Cyber-Physical Systems architecture for Industry 4.0-based manufacturing systems”, Manufacturing Letters, 3, pp. 18-23, 2015.10.1016/j.mfglet.2014.12.001 Search in Google Scholar

[18] N. Jazdi, “Cyber Physical Systems in the Context of Industry 4.0,” in IEEE International Conference on Automation, Quality and Testing, Robotics, 2014, pp. 1-4.10.1109/AQTR.2014.6857843 Search in Google Scholar

[19] Y. Liu, Y. Peng, B. Wang, S. Yao, Z. Liu, “Review on cyber-physical systems”, in IEEE, CAA. J. Autom. Sin., Vol. 4 (1), pp. 27-40, 2017.10.1109/JAS.2017.7510349 Search in Google Scholar

[20] B Ślusarczyk, “Potencjalne rezultaty wprowadzania koncepcji Przemysłu 4.0 w przedsiębiorstwach” Przegląd Organizacji, No 1 (948), pp. 4-10, 2019, https://doi.org/10.33141/po.2019.01.01.10.33141/po.2019.01.01 Search in Google Scholar

[21] Industry 5.0 Towards a sustainable, human centric and resilient European industry, p. 14. European Commission, Brussels, Manuscript completed in January 2021, Available online: https://op.europa.eu/en/publication-detail/-/publication/aed3280d-70fe-11eb-9ac9-01aa75ed71a1/language-en/format-PDF/source-search. Search in Google Scholar

[22] M.K. Wyrwicka, B. Mrugalska, “Industry 4.0 – Towards Opportunities and Challenges of Implementation”, in 24^th International Conference on Production Research, pp. 382-387, 2017.10.12783/dtetr/icpr2017/17640 Search in Google Scholar

[23] D. Romero, O. Noran, J. Stahre, P. Bernus, Å. Fast-Berglund, “Towards a Human-Centred Reference Architecture for Next Generation Balanced Automation Systems: Human-Automation Symbiosis”, Collab. Hyperconnected World, Vol. 460, pp. 556-566. 2015, doi:10.1007/978-3-319-22759-7_64.10.1007/978-3-319-22759-7_64 Search in Google Scholar

[24] D. Romero, P. Bernus, O. Noran, J. Stahre, Å.F. Berglund, “The operator 4.0: Human cyber-physical systems & adaptive automation towards human-automation symbiosis work systems”, in IFIP Advances in Information and Communication Technology; Springer: New York, NY, USA, Vol. 488, pp. 677-686, 2016.10.1007/978-3-319-51133-7_80 Search in Google Scholar

[25] M.I. Wolter, A. Mönnig, M. Hummel, E. Weber, G. Zika, R. Helmrich, T. Maier, C. Neuber-Pohl, “Economy 4.0 and its labour market and economic impacts. Scenario calculations in line with the BIBB-IAB qualification and occupational field projections”, IAB Forschungsbericht, Vol. 13, 2016, http://doku.iab.de/forschungsbericht/2016/fb1316_en.pdf (15.07.2019). Search in Google Scholar

[26] S. Kergroach, “Industry 4.0: New Challenges and Opportunities for the Labour Market”, Foresight and STI Governance, Vol. 11, No. 4, p. 6, 2017.10.17323/2500-2597.2017.4.6.8 Search in Google Scholar

[27] V. Terziyan, S. Gryshko, M. Golovianko, “Patented Intelligence: Cloning Human Decision Models for Industry 4.0”, Journal of Manufacturing Systems, Vol. 48, pp. 204-217, 2018.10.1016/j.jmsy.2018.04.019 Search in Google Scholar

[28] A.C. Pereira, F. Romero, “A Review of the Meanings and the Implications of the Industry 4.0 Concept”, Procedia Manufacturing, Vol. 13, pp. 1206-1214, 2017.10.1016/j.promfg.2017.09.032 Search in Google Scholar

[29] M. Młody, “Personalizacja produktów a Przemysł 4.0 – ocena implementacji nowoczesnych technologii w przemyśle produkcyjnym z perspektywy konsumentów”, (Products Personalization and Industry 4.0 – Evaluation of the Implementation Validity of Modern Technologies in the Manufacturing Industry from the Perspective of Consumers) Ekonomika i Organizacja Przedsiębiorstwa, No. 3, pp. 62-72, 2018. Search in Google Scholar

[30] H. Peters, How could Industry 4.0 transform the Steel Industry? Presentation at Future Steel Forum, Warsaw, Poland, 14.-15.6.2017. Search in Google Scholar

[31] B. Gajdzik, R. Wolniak, “Digitalisation and Innovation in the Steel Industry in Poland – Selected Tools of ICT in an Analysis of Statistical Data and a Case Study”. Energies, Vol. 14, 334, 2021, doi10.3390/en14113034.10.3390/en14113034 Search in Google Scholar

[32] B. Gajdzik, R. Wolniak, “Transitioning of Steel Producers to the Steelworks 4.0 – Literature Review with Case Studies”, Energies, Vol. 14, 4109,2021. https://doi.org/10.3390/en14144109.10.3390/en14144109 Search in Google Scholar

[33] B. Gajdzik, “Autonomous and professional maintenance in metallurgical enetrprise as activirties within total productive maintenance”, Metalurgija, Vol. 53, No. 2, pp. 269-272, 2014. Search in Google Scholar

[34] I. Nonaka, H. Takeuchi, The knowledge-creating company. New York: Oxford: Oxford University Press, pp. 57, 62, 71, 1995. Search in Google Scholar

[35] P.S. Adler, “Comment on I. Nonaka. Managing innovation as an organizational knowledge creation process”, in J. Allouche and G. Pogorel, (Eds), Technology management and corporate strategies: a tricontinental perspective. Amsterdam: Elsevier, pp 110-124, 1995. Search in Google Scholar

[36] K. Grzybowska, and B. Gajdzik, “SECI model and facilitation in change management in metallurgical enterprise”, Meta-lurgija, Vo. 52, No. 2, pp. 275-278, 2013. Search in Google Scholar

[37] D. Kiel, J.M. Müller, C. Arnold, K.I., Voigt, “Sustainable Industrial Value Creation: Benefits and Challenges of Industry 4.0”, International Journal of Innovation Management, Vol. 21 (8), pp. 1-34, 2017.10.1142/S1363919617400151 Search in Google Scholar

[38] B. Gajdzik, S. Grabowska, S. Saniuk, T. Wieczorek, “Sustainable Development and Industry 4.0: A Bibliometric Analysis Identifying Key Scientific Problems of the Sustainable Industry 4.0”, Energies, Vol. 13(16), 4254, 2020, https://doi.org/10.3390/en1316425410.3390/en13164254 Search in Google Scholar

[39] B. Gajdzik, A. Wyciślik, “Assessment of environmental aspects in a metallurgical enterprise”, Metalurgija, Vol. 51 (4), pp. 537-540, 2012. Search in Google Scholar

[40] B. Gajdzik, “Environmental aspects, strategies and waste logistic system based on the example of metallurgical company”, Metalurgija, Vol. 48(1), pp. 63-67, 2009. Search in Google Scholar

[41] B. Gajdzik, “Comprehensive classification of environmental aspects in a manufacturing enterprise”, Metalurgija, Vol. 51, No. 4, pp. 541-544, 2012. Search in Google Scholar

[42] I. Klosok-Bazan, B. Gajdzik, J. Machnik-Słomka, W. Ocieczek, “Environmental aspects of innovation and new technology implementation in metallurgy industry”, Metalurgija, Vol. 54 (2015) 2, pp. 433-436, Apr-Jun 2015. Search in Google Scholar

[43] B. Gajdzik, W. Sroka, “Resource Intensity vs. Investment in Production Installations – The Case of the Steel Industry in Poland”, Energies, Vol. 14, 443, 2021, https://doi.org/10.3390/en14020443.10.3390/en14020443 Search in Google Scholar

[44] R. Wolniak, S. Saniuk, S. Grabowska, B. Gajdzik, “Identification of Energy Efficiency Trends in the Context of the Development of Industry 4.0 Using the Polish Steel Sector as an Example”, Energies, Vol. 13, 2867, 2020; doi:10.3390/en13112867 www.mdpi.com/journal/energies.10.3390/en13112867 Search in Google Scholar

[45] Eurofer, 2021, the European Steel Association, www.eurofer.eu Search in Google Scholar

[46] T. Małysa, B. Gajdzik, “Research on Differentiation of Accidents at Work Considering Demographic Features of Workers in Steel Sector in Poland”, Inzinerine Ekonomika-Engineering Economics 2021.10.5755/j01.ee.32.2.22506 Search in Google Scholar

[47] T. Małysa, B. Gajdzik, “Predictive models of accidents at work in the steel sector as a framework for sustainable safety”, Energies, Vol. 14 iss. 1 pp. 1-20, 2021 (art. no. 129), doi: 10.3390/en14010129. Online: url: https://doi.org/10.3390/en14010129.10.3390/en14010129 Search in Google Scholar

[48] E. Kardas, “Analiza wypadków jako ocena skuteczności działania systemu zarządzania bezpieczeństwem i higieną pracy w przedsiębiorstwie hutniczym”, Prace IMZ Vol.5, pp. 20-23, 2009. Search in Google Scholar

[49] J. Rut, A. Pytel, “Analiza wypadków przy pracy dla potrzeb zmniejszenia ryzyka zawodowego przykładzie wybranego przedsiębiorstwa”, Prace naukowe Akademii im. Jana Długosza w Częstochowie Technika, Informatyka, Inżynieria Bezpieczeństwa, t. II, p. 345 2014, http://dx.doi.org/10.16926/tiib.2014.02.30.10.16926/tiib.2014.02.30 Search in Google Scholar

[50] J. Zhou, P. Li, Y. Zhou, B. Wang, J. Zang, and L. Meng, “Toward New-Generation Intelligent Manufacturing,” Engineering, Vol. 4, No. 1, pp. 11-20, 2018.10.1016/j.eng.2018.01.002 Search in Google Scholar

[51] K.J. Nielsen, “Improving safety culture through the health and safety organization: A case study”, Journal of Safety Reserarch Vol. 48, pp. 7-17, 2014, Available from internet: https://doi.org/10.1016/j.jsr.2013.10.003.10.1016/j.jsr.2013.10.00324529086 Search in Google Scholar

[52] H. Peters, Application of Industry 4.0 concepts at steel production from an applied research perspective, Presentation at 17^th IFAC Symposium on Control, Optimization, and Automation in Mining, Mineral and Metal Processing, 2016. Search in Google Scholar

[53] E. Govender, A. Telukdarie, M.N. Sishi, “Approach for Implementing Industry 4.0 Framework in the Steel Industry”, in: 2019 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM). Date of Conference: 15-18 Dec. 2019. Date Added to IEEE Xplore: 03 February 2020. Conference Location: Macao, China. DOI: 10.1109/IEEM44572.2019.8978492.10.1109/IEEM44572.2019.8978492 Search in Google Scholar

[54] GUS:https://stat.gov.pl/download/gfx/portalinformacyjny/pl/defaultaktualnosci/5497/3/19/1/ict_w_przedsiebiorstwach_2020.xlsx Search in Google Scholar