Endüstri 4.0 Sürecinde İş Sağlığı ve Güvenliği Uygulamaları

Yıl 2022, Cilt: 9 Sayı: 2, 147 - 169, 31.12.2022

Özgür Hakan Çavuş

https://doi.org/10.34232/pjess.1185167

Öz

Significant advances are experienced in the area of occupational health and safety (OHS) practices as a result of technological developments and emerging new technics in the Industry 4.0 Process. Innovative production methods and factors such as advances in software and programming, simulation and augmented reality, internet of things, smart production systems, Big Data, cyber-physical systems, which are all along the fundamental elements of the Industry 4.0 process, bring new problems in the area of occupational health and safety. Based on this foresight, the latest developments, problems, challenges, and solutions in the field of OHS are being reviewed and evaluated in this study by utilising the previous literature.

Anahtar Kelimeler

Occupational Health and Safety, Work Accidents, Industry 4.0, Risk Analysis, Cobots.

Occupational Health and Safety Practises in the Industry 4.0 Process

Öz

Significant advances are experienced in the area of occupational health and safety (OHS) practices as a result of technological developments and emerging new technics in the Industry 4.0 Process. Innovative production methods and factors such as advances in software and programming, simulation and augmented reality, internet of things, smart production systems, Big Data, cyber-physical systems, which are all along the fundamental elements of the Industry 4.0 process, bring new problems in the area of occupational health and safety. Based on this foresight, the latest developments, problems, challenges, and solutions in the field of OHS are being reviewed and evaluated in this study by utilising the previous literature.

Anahtar Kelimeler

Occupational Health and Safety, Work Accidents, Industy 4.0

Kaynakça

• ABB Group. (2014). Connecting the world – Industry 4.0. URL: http://new.abb.com/docs/ librariesprovider20/Contact-magazine/contact_middle-east-industry-4-0-dec2014.pdf, Access Dated: 04.12.2018.
• Acatech – National Academy of Science and Engineering. (2013). Securing the future of German manufacturing industry recommendations for implementing the strategic initiative industrie 4.0. Final report of the industrie 4.0 working group. URL: http://www.acatech.de/fileadmin/user_upload/Baumstruktur_nach_Website/Acatech/root/de/Material_fuer_Sonderseiten/Industrie_4.0/Final_report__Industrie_4.0_accessible.pdf, Access Dated: 25.02.2018
• Adem, A., Çakıt, E and Dağdeviren, M. (2020). An investigation of the new occupational risks posed by industry 4.0. URL:https://www.researchgate.net/publication/340966752_Occupational_health_and_safety_risk_assessment_in_the_domain_of_Industry_4.0, Access Dated::15.04.2021.
• Ahmar, M. (2017). AI can play a big role in smarter decision making. URL:https ://www.cxoto day.com/story /ai-can-play-a-big-role-insmart er-decis ion-making/. Access dated::10.07.2019.
• Aybas, M. (2021). Covid-19’un çalışma psikolojisi üzerindeki etkileri, Abdülhalim Çelik (Ed.) Covid-19 sürecinde Türkiye’de sosyal politika içinde (243-258). Ankara : Orion Kitabevi.
• Badri, A., Gbodossou, A. ve Nadeau, S. (2012). Occupational health and safety risks: Towards the integration into project management. Safety Science, 50 (2), 190-198.
• Badri, A., Boudreau-Trudel B. and Souissi, A. S. (2018). Occupational health and safety in the industry 4.0 era: A cause for major concern?. Safety Science, 109, 403–411.
• Beetz, M., Bartels, G., AlbuSchaffer, A., BalintBenczedi, F., Belder, R., Bebler, D., Haddadin, S., Maldonado, A., Mansfeld, N., Wiedemeyer, T., Weitschat, R. And Worch, J. H. (2015). Robotic agents capable of natural and safe physical interaction with human co-workers. IEEE International Conference on Intelligent Robots and Systems, 6528-6535.
• Ben-Ner, A., & Urtasun, A. (2013). Computerization and skill bifurcation: The role of task complexity in creating skill gains and losses, ILR Review, 66 (1), 225–267.
• Bilir, A. & Yıldız. A. N. (2013). İş sağlığı ve güvenliği. Ankara: Hacettepe Üniversitesi Yayınları
• Bingöl, D. (2014). İnsan kaynakları yönetimi. İstanbul: Beta Yayınları
• Block, C., Freith, S., Kreggenfeld, N., Morlock, F., Prinz, Ch., Kreimeier, D and Kuhlenkötter, B. (2015). Industry 4.0 as a socio-technical aArea of tension - holistic view of technology, organization and personnel. Zeitschrift fuer Wirtschaftlichen Fabrikbetrieb, 110 (10), 657-660.
• Bogue, R. (2015). Robotic exoskeletons: A review of recent progress. Industrial Robotics of International Journal, 42, 5-10.
• Chiabert, P., D’Antonio, G. and Maida, L. (2018). Industry 4.0: Technologies and occupational safety and health implications. Geoingeneering Envimonrent and Mining, 154 (2), 21-26.
• Christiernin, L.G. & Augustsson, S. (2016). Interacting with industrial robots-A motion bBased ınterface, Procedia Workshop Advancement Visual Interfaces, 310-311.
• Deloitte (2018). The fourth industrial revolution is here – Are you ready?. URL: https://www2.deloitte.com/content/dam/Deloitte/tr/Documents/manufacturing/Industry4–0_Are-youready_Report.pdf. Acess dated: 08.12.2018.
• European Parliamentary Research Service (ERPS) (2015). Industry 4.0 - Digitalisation for productivity and growth. URL: http://www.europarl.europa.eu/RegData/etudes/BRIE/2015/568337/EPRS_BRI (2015)568337_EN.pdf, , Access Dated: 25.12.2018.
• European Agency for Safety and Health at Work (EU-OSHA). (2017). Monitoring tehnology: The 21. century’s pursuit of well-being?, URL: https://osha.europa.eu/en/tools-and-publications/publications/monitoring-technology-workplace/view, Access Dated: 15.06.2018.
• European Commission (2013). Factories of the future - multi-annual roadmap for the contractual PPP under horizon 2020. Prepared by European Factories of the Future Research Association (EFFRA), 1-136.
• Fernández. F B & Pérez, M Á S. (2015). Analysis and modeling of new and emerging occupational risks in the context of advanced manufacturing processes. Procedia Engineering, Science Direct, URL: https://www.daaam.info/Downloads/Pdfs/proceedings/proceedings_2014/143.pdf, Access Dated: 20.06.2019.
• Ferrera, E., Rossini, R., Baptista, A J., Campana, G., Howlett, R., Setchi, R. and Cimatti, B. (2017). Toward industry 4.0: Efficient and sustainable manufacturing leveraging MAESTRI total efficiency framework. Sustainable Design and Manufacturing. Smart Innovation, Systems and Technologies, 68, 624-633.
• Frey, C. B. & Osborne M A. (2013). The future of employment: How susceptible are jobs to computerisation?, URL:https://www.oxfordmartin.ox.ac.uk/downloads/academic/The_Future_of_Employment.pdf, Access Dated: 30.08.2018.
• Gisbert, J.R., Palau, C., Uriarte, M., Prieto, G., Palazón, J.A., Esteve, M., López, O., Correas, J., Lucas Estañ, M.C., Giménez, P., Moyano, A., Collantes, L., Gozálvez, J., Molina, B., Lázaro, O and González, A. (2014). Integrated system for control and monitoring industrial wireless networks for labor risk prevention. Journal of Network Computer Applications, 39 (1), 233-252.
• Graetz, G & Michaels, G. (2015). Robots at work, CEPR Discussion Paper No: DP10477. URL:http://cep.lse.ac.uk/pubs/download/dp1335.pdf, Acess Dated: 25.04.2018.
• Huen, D., Liu, J. And Lo, B. (2015). The IEEE life sciences newsletter. New York: IEEE. Assistive wearable robotics: healthcare’s new clothes. URL:http://www.lifesciences.ieee.org/publications/newsletter/may-2015/648-assistive-wearable-robotics-healthcare-s-new-clothes, Acess Dated:Erişim tarihi: 26.02.2018.
• International Organization for Standardization (ISO).(2011). Safety requirements for industrial rRobots - Part 1: Robots. Geneva, Switzerland. URL: https://www.iso.org/ics/25.040.30/x/d, Access Dated:01.02.2012.
• International Organization for Standardization (ISO). (2012). Robots and robotic devices – vocabulary. Geneva, Switzerland. URL:https://www.iso.org/ics/25.040.30/x/d, Access Dated:01.02.2013.
• Jilcha, K & Kitaw, D. (2017). Industrial occupational safety and health innovation for sustainable development. Engineering Scihence and Technology International Journal, 20, 372-380.
• Jones, D. (2017). With the IEC/ISO 17305 safety standard delay, what’s the next?. Rockwell Automation, URL:https://www.rockwellautomation.com/en-us/company/news/blogs/unified-safety-standard-iec-iso-17305-is-cancelled.html, Access Dated: 02.02.2020.
• Kabakçı, M. (2009) Avrupa birliği iş hukukunda işverenin isg ile ilgili temel yükümlülükleri ve türk mevzuatının uyumu, İstanbul: Beta Yayınları
• Kagermann, H., Wahlster, W and Helbig, J. (2013). Recommendations for implementing the strategic initiative industrie 4.0 final report of the Industrie 4.0 working gGroup. Acatech, Germany, URL: https://www.din.de/blob/76902/e8cac883f42bf28536e7e8165993f1fd/recommendations-for-implementing-industry-4-0-data.pdf, Access Dated: 01.07.2018.
• Kılkış, İ. (2022). İş sağlığı ve güvenliği. Bursa: Dora Basım Yayın Ltd. Şti
• Kress, P., Pflaum, A and Lowen, U. (2016). Ecosystems in the manufacturing industry, IEEE International Conference on Emerging Technologies and Factory Automation. 7733621, 1-28.
• Kurt, R. (2019), Industry 4.0 in terms of industrial relations and its impacts on labour life. 3rd World Conference on Technology, Innovation and Entrepreneurship (WOCTINE). Procedia Computer Science, 158, 590–601,
• Kuschnerus, D., Bilgic, A., Bruns, F and Musch, T. (2015). A hierarchical dDomain model for safety-critical cyber-physical systems in process automation. IEEE International Conference on Industrial Informatics, Art. No. 7281773, 430-436
• Lasi, H., Fettke, P and Feld, T. (2014). Industry 4.0. Business Information System Engineering, 6,239-242.
• Lee, J., Kao, H A and Yang, S. (2014). Product services systems and value creation. Proceedings of The 6. CIRP Conference on Industrial Product-Service Systems. Service İnnovation and Smart Analytics for Industry 4.0 and Big Data Environment. Procedia CIRP, 16: 3-8.
• Lu, Y. (2017). Industry 4.0: A survey on technologies, applications and open research issues. Journal of Industrial Information Integration, 6:1-10.
• Leka, S & Jain, A. (2010). Health impact of psychosocial hazards at work: an overview. World Health Organization. Geneva, 110-136.
• Leso, V., Fontana, L. and Iavicoli, I. (2018). The occupational health and safety dimension of industry 4.0. La Medical. 110 (5),327–338.
• Lira, D.N & Borsato, M. (2016). Dependability modeling for the failure prognostics in smart manufacturing. Transdisciplinary Engineering, 4, 885–894.
• Lorenz, M., Rüßmann, M., Strack, R., Lueth, K. L. and Bolle, M. (2015). Man and machine in industry 4.0: how will technology transform the industrial workforce through 2025?. The Boston Consulting Group. URL: https://www.bcg.com/publications/2015/technology-business-transformation-engineered-products-infrastructure-man-machine-industry-4, Access Dated: 10.12.2019.
• MacDougall, W. (2014). Industrie 4.0: smart manufacturing for the future. Germany Trade & invest (GTAI), URL: https://www.gtai.de/GTAI/Content/EN/Invest/_SharedDocs/ Downloads/GTAI/Brochures/Industries/industrie4.0-smart-manufacturing-for-thefuture-en.pdf, Access Dated: 10.02.2021.
• MacEachen, E., Kosny, A., Ståhl, C., O’Hagan, F., Redgrift, L., Sanford, S., Carrasco, C., Tompa, E and Mahood, Q. (2016). Systematic review of qualitative literature on occupational health and safety legislation and regulatory enforcement planning and implementation. Scandinavian Journal of Work Environmental Health, 42 (1), 3-16.
• Malinowski, M L., Beling, P A., Haimes, Y Y,. La Viers, A., Marvel, J.A. and Weiss, B A. (2015). System interdependency modeling in the design of prognostic and health management systems in smart manufacturing. Proceedings of the Annual Conference of the Prognostics and Health Management Society, URL: (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5486229/, Access Dated: 01.06.2021.
• Mas-Machuca, M., Jasmina Berbegal-Mirabent, J.b and Ines, Alegre. (2016). Work-life balance and its relationship with organizational pride and job satisfaction. Journal of Management of Psychology, 31(2), 586-602.
• Mattsson, S., Partini, J. and Fast-Berglund, A. (2016). Evaluating four devices that present operator emotions in real-time. Procedia CIRP, 50, 524-528. Mızrakçı, K. C. (2020). Agile occupational safety management system model and evaluation of the proposed model in an automotive company. International Journal of Management and Administration, 4 (8), 228-244.
• Ministry of Economy, Science and Innovation, Québec (MESI). (2016). Plan d'action en economie numérique: feuille de route industrie 4.0. URL: https://www.economie.gouv. qc.ca/fileadmin/contenu/documents_soutien/gestion_entreprises/industrie_4_0/ feuille_route_industrie_4_0.pdf, Access Dated: 18.07.2017.
• Moniri, M M., Valcarcel, F A E., Merkel, D. and Sonntag, D. (2016). Human gaze and focus of-attention in dual reality human-robot collaboration. 12. International Conference on Intelligent Environments, 238-241.
• Murashov, V., Hearl, F. and Howard, J. (2016). Working safely with robot workers: recommendations for the new workplace. Journal of Occupational Environmental Hyge,, 13,61-71.
• National Institute for Occupational Safety and Health, U.S, (NIOSH): (2014). The State of the national initiative on prevention through design. Cincinnati, OH: U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, DHHS (NIOSH) Publication No: 2014-123. URL: https://www.cdc.gov/niosh/docs/2014-123/pdfs/2014-123_v2.pdf?id=10.26616/NIOSHPUB2014123, Access Dated: 11.07.2018.
• Niesen, T., Houy, C., Fettke, P. and Loos, P. (2016). Towards an integrative big data analysis framework for data-driven risk management in industry 4.0. Proceedings of the Annual Hawaii International Conference on System Sciences. URL: https://csdl-downloads.ieeecomputer.org/proceedings/hicss/2016/5670/00/5670f065.pdf?7427814, Access Dated: 15.05.2021.
• Palazon, J.A., Gozalvez, J., Maestre, J.L. and Gisbert, J.R. (2013). Wireless solutions for improving health and safety working conditions in industrial environments. IEEE 15. International Conference on Health Networking, Applications and Services. Healthcom, 544-548.
• Pavón, I., Sigcha, L.F., Arezes, P.M., Costa de Arcas G. and Lopez Navarro, J.M. (2018). Wearable technology for occupational risk assessment: potential avenues for applications. Occupational Safety and Hygiene. 6, 447-452.
• Percy, S. (2017). Artificial intelligence: the role of evolution in decision-making. URL: https ://www.teleg raph.co.uk/busin ess/digital-leade rs/horiz ons/artifi cial intelligen ce-role-of-evolu tion-indecis ion-making/. Access Dated: 20.06.2019.
• Podgórski, D., Majchrzycka, K., Dąbrowska, A., Gralewicz, G. and Okrasa, M. (2017). 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 Ergonomics, 23 (1), 1-20.
• Pontarollo, E. (2016). Industry 4.0: A new approach to industrial policy. Industria. 37 (3), 375-381
• Reinert D. (2016). The Future of OSH: A wealth of chances and risks. Industrial Health, 54, 387-388.
• Roblek, V., Meško, M. and Krapež, A. A. (2016). Complex view of industry 4.0. SAGE Open, URL: https://journals.sagepub.com/doi/full/10.1177/21582440166539872016, Acess Dated: 10.10.2018.
• Rojko, A. (2017). Industry 4.0 concept: Background and overview. International Journal of Interactions Mobile Technology, 11 (5), 77-90.
• Rüßmann, M., Lorenz, M., Gerbert, P., Waldner, M., Justus, J., Engel, P. and Harnisch, M. (2015). Industry 4.0: The future of productivity and growth in manufacturing industries. Boston Consulting Group.
• Sanders, A., Elangeswaran, C. and Wulfsberg, J. (2016). Industry 4.0 implies lean manufacturing: Research activities in industry 4.0 function as enablers for lean manufacturing. Journal of Industrial Engineering Management, 9, 811-833.
• Schlechtendahl, J., Keinert, M. and Kretschmer, F. (2015). Making existing production systems industry 4.0-ready. Production Engineering, 9,143-148.
• Schmidt, R., Möhring, M. and Härting, R. C. (2015). Industry 4.0-potentials for cCreating smart products: Empirical research results, International Conference on Business Information Systems. Springer International Publishing, 16-27
• Schulte, P A. and Salamanca-Buentello F. (2007). Ethical and scientific issues of nanotechnology in the workplace. Environmental Health Perspectives, 115,5-12.
• Shibin, KT., Gunasekaran, A., Papadopoulos, T., Childe, S., Dubey, R. and Singh, S. (2016). Energy sustainability in operations: An optimization study. International Journal of Advanced Manufacturing Technology, 86, 2873–2884.
• Stock, T. and Seliger, G. (2016). Opportunities of sustainable manufacturing in industry 4.0. Global Conference on Sustainable Manufacturing - Decoupling Growth from Resource Use. Procedia CIRP, 40, 536-541.
• Süzek, S. (2019). İş Hukuku, İstanbul: Beta Yayınları.
• Szulewski, P. (2018). IT Integration is a Spirit of the Industry 4.0 Manufacturing Environment, Mechanic, 91:(8-9); 630-636.
• Thoben, K.D., Busse, M. and Denkena B. (2014). System-integrated intelligence-new challenges for product and production engineering in the context of industry 4.0. Procedia Technology, 15,1-4.
• Thrun, S. (2004). Toward a framework for human-robot interactions. Human-Computer Interaction, 19,9-24.
• Toro, C., Barandiaran, I. and Posada, J. (2015). A perspective on knowledge based and intelligent systems implementation in industrie 4.0. Procedia Computer Science. 60 (1), 362–370.
• Tupa, J., Simota, J. and Steiner, F. (2017). Aspects of risk management implementation for industry 4.0. 27. International Conference on Flexible Automation and Intelligent Manufacturing-FAIM, Italy. Procedia Manufacturing, 11,1223-1230.
• Van Holland, B.J., Soer, R., de Boer, M.R., Reneman, M.F. and Brouwer, S. (2015). Preventive occupational health interventions in the meat processing industry in upper-middle and high-income countries: A systematic review on their effectiveness. International Architecture Occupational Environmental Health, 88 (4), 389-402.
• Vasic, M. & Billard, A. (2013). Safety issues in human-robot interactions. IEEE International Conference Robotics Automation (ICRA). Germany, 197-204
• Wang, S., Wan, J., Li, D. and Zhang, C. (2016). Implementing smart factory of industrie 4.0: An Outlook. International Journal of Distribution Sense Network, 3, 1-10
• Waschneck, B., Altenmüller, T., Bauernhansl, T. and Kyek, A. (2017). Production scheduling in complex job shops from an industrie 4.0 perspective: A review and challenges in the semiconductor industry. CEUR Workshop Proceedings 1793, URL: http://ceur-ws.org/Vol-1793/paper3.pdf, Access Dated: 10.06.2020.
• Wrobel-Lachowska, M., Wisniewski, Z., Polak-Sopinska A. ve Lachowski, R. (2018). ICT in logistics as a challenge for mature workers. Knowledge Management Role in Information Society. Goossens, R. (eds.) Advances in Social & Occupational Ergonomics, AHFE, Advances in Intelligent Systems and Computing, 605. Yaqiong, Lv. and Danping, Lin (2017). Design an intelligent real-time operation planning system in distributed manufacturing network. Industrial Management Data System, 117 (4), 742–753
• Zhou, K., Liu, T. and Zhou, L.. (2015). Industry 4.0: Towards future industrial opportunities and Cchallenges. 12. International Conference on Fuzzy Systems and Knowledge Discovery (FSKD), URL: http://or.nsfc.gov.cn/bitstream/00001903-5/157049/1/1000014061825.pdf., Access Dated: 26.02.2018.