This work is licensed under the Creative Commons Attribution 4.0 International License.
B. Ślusarczyk, J. Wiśniewska. “Barriers and the potential for changes and benefits from the implementation of Industry 4.0 solutions in enterprises”. Production Engineering Archives, vol. 30(2), pp. 145-154, Jun. 2024.Search in Google Scholar
S. Fareri, G. Fantoni, F. Chiarello, E. Coli, A. Binda. “Estimating Industry 4.0 impact on job profiles and skills using text mining”. Computers in Industry, vol. 118, no. 103222, Jun. 2020.Search in Google Scholar
A. Badri, B. Boudreau-Trudel, A.S. Souissi. “Occupational health and safety in the industry 4.0 era: a cause for major concern?”. Safety Science, vol. 109, pp. 403-411, Nov. 2018.Search in Google Scholar
D. Podgórski, K. Majchrzycka, A. Dąbrowska, G. Gralewicz, M. Okrasa. “Towards a conceptual framework of OSH risk management in smart working environments based on smart PPE, ambient intelligence and the Internet of Things technologies.” International Journal of Occupational Safety and Ergonomics, vol. 23(1), pp. 1-20, 2017.Search in Google Scholar
K.A. Demir, G. Döven, B. Sezen. “Industry 5.0 and Human-Robot Co-Working.” Procedia Computer Science, vol. 158, pp. 688-695, Jun. 2019.Search in Google Scholar
Sadłowska-Wrzesińska, A. Górny, A. Mościcka-Teske. „The outcomes of shift work in the context of psychosocial functioning-sex aspects”, in: Occupational Safety and Hygiene IV, P.M. Arezes, et al. (Eds), pp. 197-201, CRC Press, London, 2016.Search in Google Scholar
A. Górny. “Occupational risk in improving the quality of working conditions”. Occupational risk in improving the quality of working conditions” in: Advances in Social and Organizational Factors, P. Vink, Ed., AHFE Conference 2014, pp. 267-276.Search in Google Scholar
A. Górny. “Guidelines and Needs for the Implementation of the ISO 45001 Requirements for Shaping of Safety in Industry 4.0”, in: Advances in Manufacturing IV, A. Hamrol, M. Grabowska, M. Hinz (Eds), pp. 107-123, Springer, Cham, 2024.Search in Google Scholar
P. Fantini, M. Pinzone, M. Taisch. “Placing the operator at the centre of Industry 4.0 design: Modelling and assessing human activities within cyber-physical systems”. Computers & Industrial Engineering, vol. 139, no. 105058, Jan. 2020.Search in Google Scholar
L. Gualtieri, F. Fraboni, L.Pietrantoni. “Guidelines for the integration of cognitive ergonomics in the design of human-centered and collaborative robotics applications”. Procedia CIRP, vol. 120, pp. 374-379, 2023.Search in Google Scholar
K. Kumar (Ed). “Advances in Industrial Engineering in the Industry 4.0 Era” (1st ed.), CRC Press, Boca Raton, 2024.Search in Google Scholar
S. Grabowska. “Smart Factories in the Age of Industry 4.0“. Management Systems in Production Engineering, vol. 28(2), pp. 90-96, Jun. 2020.Search in Google Scholar
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.Search in Google Scholar
A. Górny. “Developing Industry 5.0 to Effectively Harness Production Capacities“. Management Systems in Production Engineering, vol. 31(4), pp. 456-463, Dec. 2023.Search in Google Scholar
B. Mrugalska, M.K. Wyrwicka. “Towards Lean Production in Industry 4.0“. Procedia Engineering, vol. 182, pp. 466-473, Apr. 2017.Search in Google Scholar
I. Rojek, M. Jasiulewicz-Kaczmarek, M. Piechowski, D. Mikołajewski. “An Artificial Intelligence Approach for Improving Maintenance to Supervise Machine Failures and Support Their Repair“. Applied Sciences, vol. 13(8), no 4971, Apr. 2023.Search in Google Scholar
G. Charalambous, S. Fletcher, P. Webb. “Identifying the key organisational human factors for introducing human– robot collaboration in industry: an exploratory study”. The International Journal of Advanced Manufacturing Technology, vol. 81, pp. 2143-2155, Jun. 2015.Search in Google Scholar
A. Górny. “Industry 4.0 – Safety Guidelines In The Construction Of Technical Devices”, In: K.S. Soliman (Ed), Proceedings of the 39th International Business Information Management Association Computer (IBIMA), pp. 130-138. IBIMA Publishing, 2022.Search in Google Scholar
B. Wachnik. “Analysis of the use of artificial intelligence in the management of Industry 4.0 projects. The perspective of Polish industry”. Production Engineering Archives, vol. 28(1), pp. 56-63, Mar. 2022.Search in Google Scholar
F.G. Filip. “A Decision-Making Perspective for Designing and Building Information Systems”. International Journal of Computers, Communications & Control, vol. 7(2), pp. 264-272, Mar. 2014.Search in Google Scholar
R. Gervasi, L. Mastrogiacomo, F. Franceschini. “A conceptual framework to evaluate human-robot collaboration”. The International Journal of Advanced Manufacturing Technology, vol. 108, pp. 841-865, May 2020.Search in Google Scholar
H.M. Elhusseiny, J. Crispim. “SMEs, barriers and opportunities on adopting industry 4.0: A review”. Procedia Computer Science, vol. 196, pp. 864-87, Jan. 2022.Search in Google Scholar
G. Arana-Landín, I. Laskurain-Iturbe, M. Iturrate, B. Landeta-Manzano. “Assessing the influence of industry 4.0 technologies on occupational health and safety”. Heliyon, vol. 9(3), no. e13720, Mar. 2023.Search in Google Scholar
A. Lasota, K. Hankiewicz. “Digital Human Modeling in Improving the Ergonomics of Industrial Workplace – a Methodological framework“. Management and Production Engineering Review, vol. 15(1), pp. 182-192, Mar. 2024.Search in Google Scholar
S.S. Kamble, A. Gunasekaran, S.A. Gawankar, “Sustainable Industry 4.0 framework: A systematic literature review identifying the current trends and future perspectives”. Process Safety and Environmental Protection, vol. 117, pp. 408-425, Jul. 2018.Search in Google Scholar
C. Guerin, P. Rauffet, C. Chauvin, E. Martin. “Toward production operator 4.0: modelling Human-Machine Cooperation in Industry 4.0 with Cognitive Work Analysis”. IFACPapersOnLine, vol. 52(19), pp. 73-78, Dec. 2019.Search in Google Scholar
L. Gualtieri, E. Rauch, R. Vidoni. “Emerging research fields in safety and ergonomics in industrial collaborative robotics: A systematic literature review”. Robotics and Computer Integrated Manufacturing, vol. 67, no 101998, Feb. 2021.Search in Google Scholar
M. Fallaha, Z.M. Cinar, O. Korhan, Q. Zeeshan. “Operator 4.0 and Cognitive Ergonomics” in: Industrial Engineering in the Digital Disruption Era, F. Calisir, O. Korhan (Eds), pp. 217-228, Springer, Cham, 2020.Search in Google Scholar
EN ISO 12100:2010, Safety of machinery. General principles for design. Risk assessment and risk reduction (ISO 12100:2010), International Organization for Standardization, Geneva.Search in Google Scholar
EN ISO 10218-1:2011, Robots and robotic devices. Safety requirements for industrial robots. Part 1: Robots (ISO 10218-1:2011), International Organization for Standardization, Geneva.Search in Google Scholar
EN ISO 10218-2:2011, Robots and robotic devices. Safety requirements for industrial robots. Part 2: Robot systems and integration (ISO 10218-2:2011), International Organization for Standardization, Geneva.Search in Google Scholar
ISO/TS 15066:2016, Robots and robotic devices. Collaborative robots, International Organization for Standardization, Geneva.Search in Google Scholar
M. Alvesson, A. Spicer. “A Stupidity-Based theory of organizations”. Journal of Management Studies, vol. 49(7), pp. 1194-1220, Jun. 2012.Search in Google Scholar
M. Alvesson, A. Spicer. “The Stupidity Paradox: the Power and Pitfalls of Functional Stupidity at Work”, Profile Books, London 2016.Search in Google Scholar
J.M. Bradshaw, V. Dignum, C. Jonker, M. Sierhuis. “Human-agent-robot teamwork”. IEEE Intelligent Systems, vol. 27(2), pp. 8-13, Mar.-Apr. 2012.Search in Google Scholar
ESENER, Third European Survey of Enterprises on New and Emerging Risks (ESENER 3), 2019. European Agency for Safety and Health at Work. Internet: https://osha.europa.eu/en/publications/third-european-survey-enterprises-new-and-emerging-risks-esener-3/view [Mar. 23, 2024].Search in Google Scholar
P.V. Moore. “OSH and the Future of Work: Benefits and Risks of Artificial Intelligence Tools in Workplaces” in: Digital Human Modeling and Applications in Health, Safety, Ergonomics and Risk Management. Human Body and Motion, V. Duffy (Eds), vol. 11581, Springer, Cham, 2019.Search in Google Scholar
EU-OSHA, Digitalization and occupational safety and health (OSH), Eur. Agen. Safety Health Work (2019). Internet: https://osha.europa.eu/en/publications/digitalisation-and-occupational-safety-and-health-osh-eu-osha-research-programme/view [Mar. 23, 2024].Search in Google Scholar
EU-OSHA, Impact of artificial intelligence on occupational safety and health, Eur. Agen. Saf. Heal. Work (2021). Internet: https://osha.europa.eu/en/publications/impact-artificial-intelligence-occupational-safety-and-health/view [Feb. 10, 2024].Search in Google Scholar
J. Tupa, J. Simota, F. Steiner. “Aspects of risk management implementation for industry 4.0”. Procedia Manufacturing, vol. 11, pp. 1223-1230, Sep. 2017.Search in Google Scholar
