Abstract
The seamless link between physical and cyber components becomes more important as the industry develops and integrates concepts such as Industry 5.0. Traditionally, frameworks on Cyber-Physical Systems overlook the significance of human factors, leading to lower performance and reduced user satisfaction. This paper shows an approach of a CPS that integrates human engagement by assessing the ergonomic impact of repeated activities with an OCRA measurement. The framework proposes a dynamic control architecture that adapts task planning and workloads rules to improve both human and system performance by continually monitoring the OCRA index. This method lowers the possibility of physical strain by ensuring that jobs are assigned according to human capacities. The proposed approach was evaluated in a simulated scenario of a flexible manufacturing system using multi-agent systems paradigm.
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Meza, SM., Perez, MJ., Guerra-Cruz, A., Paredes-Astudillo, Y.A., Jimenez, JF. (2024). A Framework for Enhancing Human-Agent Interaction in Cyber-Physical Systems: OCRA Measurement Perspective. In: Borangiu, T., Trentesaux, D., Leitão, P., Berrah, L., Jimenez, JF. (eds) Service Oriented, Holonic and Multi-Agent Manufacturing Systems for Industry of the Future. SOHOMA 2023. Studies in Computational Intelligence, vol 1136. Springer, Cham. https://doi.org/10.1007/978-3-031-53445-4_20
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