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The realisation of the ideas of smart factories and sustainable manufacturing can be quickly realised in companies where industrial production is high-volume, low-mix. However, it is more difficult to follow trends toward industry 4.0 in craft industries such as tooling. This kind of work environment is a challenge for the deployment of sustainability and smart technologies because many stages involve the so-called “manual processing according to the worker’s feeling and experience.” With the help of literature review and testing in the production environment, we approach the design of a procedure for planning a sustainable technological upgrade of craft production. The best method proved to be a combination of a maturity model, process mapping with flowcharts, critical analysis, and customised evaluation model. Workplace flexibility, as a move towards sustainability, is presented in a laboratory environment on screwing performed by human wearing HoloLens and collaborative robot.
Brigita Gajšek; Saša Stradovnik; Aleš Hace. Sustainable Move towards Flexible, Robotic, Human-Involving Workplace. Sustainability 2020, 12, 6590 .
AMA StyleBrigita Gajšek, Saša Stradovnik, Aleš Hace. Sustainable Move towards Flexible, Robotic, Human-Involving Workplace. Sustainability. 2020; 12 (16):6590.
Chicago/Turabian StyleBrigita Gajšek; Saša Stradovnik; Aleš Hace. 2020. "Sustainable Move towards Flexible, Robotic, Human-Involving Workplace." Sustainability 12, no. 16: 6590.