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Sustainable Move towards Flexible, Robotic, Human-Involving Workplace

Brigita Gajšek, Saša Stradovnik, Aleš Hace

2020Sustainability27 citationsDOIOpen Access PDF

Abstract

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.

Topics & Concepts

SustainabilityCraftManufacturing engineeringFlexibility (engineering)Software deploymentIndustry 4.0Process managementProcess (computing)Production (economics)EngineeringRealisationComputer scienceSystems engineeringSoftware engineeringManagementEconomicsEmbedded systemEcologyOperating systemPhysicsArchaeologyHistoryMacroeconomicsBiologyQuantum mechanicsDigital Transformation in IndustryErgonomics and Human FactorsAdvanced Manufacturing and Logistics Optimization
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