Abstract
The fourth industrial revolution features smart and connected technologies that improve significantly business operations. Certainly, there is an increase of efficiency and productivity of smart factories due to the implementation of these innovative technologies. Nevertheless, this new industrial model threatened the need of human operators, as the implemented smart systems are capable of executing and controlling autonomously manufacturing operations. However, in many cases, the inherent characteristics of certain processes challenge these systems when the operator is incorporated in the automated manufacturing processes. In fact, these systems lack of assuring the well-being of the human operators. This paper introduces a framework of a manufacturing control system that integrates human activities in the manufacturing process, in order to minimize the degradation of the operator’s well-being. This approach employs a human decisional entity as a virtual component – a holon that monitors the well-being indicators of the operator and allocates the tasks in real-time during production execution. The case study analysed in this paper is executed in a simulated flexible manufacturing system with two workstations for inspections, one being fully conducted by the operator and the other by a computer vision system. In this exploratory research, the experiments evaluate the role and cooperative behaviour of the human decisional entity and illustrate the integration of the operator in the systems.
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References
Akkari, A.C.S., da Rocha, M.F.M., de Farias Novaes, R.F.: Cognitive ergonomics and the industry 4.0. In: Brazilian Technology Symposium, pp. 275–280. Springer, Cham (2017)
Attwood, D., Deeb, J., Danz-Reece, M.: Personal actors. In Tooley, M. (ed) Design Engineering Manual, pp. 234–247. Butterworth-Heinemann (2010)
Berdal, Q., Pacaux-Lemoine, M.P., Trentesaux, D., Chauvin, C.: Human-machine cooperation in self-organized production systems: a point of view. In International Workshop on Service Orientation in Holonic and Multi-Agent Manufacturing, pp. 123–132. Springer, Cham (2018)
Brussel, H.V., Wyns, J., Valckenaers, P., Bongaerts, L., Peeters, P.: Reference architecture for holonic manufacturing systems: PROSA. Comput. Ind. 37(3), 255–274 (1998)
Dilts, D.M., Boyd, N.P., Whorms, H.H.: The evolution of control architectures for automated manufacturing systems. J. Manufact. Syst. 10(1), 79–93 (1991)
Dul, J., Neumann, W.P.: Ergonomics contributions to company strategies. Appl. Ergon. 40(4), 745–752 (2009)
El Mouayni, I., Etienne, A., Lux, A., Siadat, A., Dantan, J.Y.: A simulation-based approach for time allowances assessment during production system design with consideration of worker’s fatigue, learning and reliability. Computers and Industrial Engineering (2019)
Gaham, M., Bouzouia, B., Achour, N.: Human-in-the-loop cyber-physical production systems control (HiLCP 2 sC): a multi-objective interactive framework proposal. Service Orientation in Holonic and Multi-Agent Manufacturing, pp. 315–325. Springer, Cham (2015)
Glock, C.H., Grosse, E.H., Kim, T., Neumann, W.P., Sobhani, A.: An integrated cost and worker fatigue evaluation model of a packaging process. Intern. J. Prod. Econ. 207(September 2018), 107–124 (2019)
Hu, F., Lu, Y., Vasilakos, A.V., Hao, Q., Ma, R., Patil, Y., Xiong, N.N.: Robust cyber–physical systems: concept, models, and implementation. Future Gener. Comput. Syst. 56, 449–475 (2016)
Council, I.E.A.: The Discipline of Ergonomics, p. 1. Ergonomics Society, Inter (2000)
Jimenez, J.F., Bekrar, A., Zambrano-Rey, G., Trentesaux, D., Leitão, P.: Pollux: a dynamic hybrid control architecture for flexible job shop systems. Int. J. Prod. Res. 55(15), 4229–4247 (2017)
Leitão, P., Restivo, F.: ADACOR: a holonic architecture for agile and adaptive manufacturing control. Comput. Ind. 57(2), 121–130 (2006)
Leuvennink, J., Kruger, K., Basson, A.: Architectures for human worker integration in holonic manufacturing systems. International Workshop on Service Orientation in Holonic and Multi-Agent Manufacturing, pp. 133–144. Springer, Cham (2018)
Pacaux-Lemoine, M.P., Trentesaux, D., Rey, G.Z., Millot, P.: Designing intelligent manufacturing systems through Human-Machine Cooperation principles: a human-centered approach. Comput. Ind. Eng. 111, 581–595 (2017)
Peruzzini, M., Pellicciari, M.: A framework to design a human-centred adaptive manufacturing system for aging workers. Adv. Eng. Inform. 33, 330–349 (2017)
Rauch, E., Linder, C., Dallasega, P.: Anthropocentric perspective of production before and within Industry 4.0, Computers and Industrial Engineering (2019)
Romero, D., Bernus, P., Noran, O., Stahre, J., Fast-Berglund, Å.: The operator 4.0: human cyber-physical systems and adaptive automation towards human-automation symbiosis work systems. In IFIP Conference on Advances in Production Management Systems, pp. 677–686, Springer, Cham (2016)
Stern, H., Becker, T.: Development of a Model for the Integration of Human Factors. Cyber-physical Prod. Syst. Proc. Manufact. 9, 151–158 (2017)
Trentesaux, D.: Distributed control of production systems. Eng. Appl. Artif. Intell. 22(7), 971–978 (2009)
Trentesaux, D., Giret, A.: Go-green manufacturing holons: a step towards sustainable manufacturing operations control. Manufact. Lett. 5, 29–33 (2015)
Trentesaux, D., Pach, C., Bekrar, A., Sallez, Y., Berger, T., Bonte, T., Barbosa, J.: Benchmarking flexible job-shop scheduling and control systems. Control Eng. Pract. 21(9), 1204–1225 (2013)
Zambrano-Rey, G.., Carvalho, M., Trentesaux, D.: Cooperation models between humans and artificial self-organizing systems: motivations, issues and perspectives. In: 2013 6th Int. Symposium on Resilient Control Systems (ISRCS), pp. 156–161, IEEE (2013)
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Paredes-Astudillo, Y.A., Jimenez, JF., Zambrano-Rey, G., Trentesaux, D. (2020). Human-Machine Cooperation for the Distributed Control of a Hybrid Control Architecture. In: Borangiu, T., Trentesaux, D., Leitão, P., Giret Boggino, A., Botti, V. (eds) Service Oriented, Holonic and Multi-agent Manufacturing Systems for Industry of the Future. SOHOMA 2019. Studies in Computational Intelligence, vol 853. Springer, Cham. https://doi.org/10.1007/978-3-030-27477-1_8
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