Litcius/Paper detail

Physical Ergonomic Improvement and Safe Design of an Assembly Workstation through Collaborative Robotics

Ana Colim, Carlos Faria, João Cunha, João Oliveira, Nuno Sousa, L.A. Rocha

2021Safety57 citationsDOIOpen Access PDF

Abstract

One of the key interesting features of collaborative robotic applications is the potential to lighten the worker workload and potentiate better working conditions. Moreover, developing robotics applications that meets ergonomic criteria is not always a straightforward endeavor. We propose a framework to guide the safe design and conceptualization of ergonomic-driven collaborative robotics workstations. A multi-disciplinary approach involving robotics and ergonomics and human factors shaped this methodology that leads future engineers through the digital transformation of a manual assembly (with repetitive and hazardous operations) to a hybrid workstation, focusing on the physical ergonomic improvement. The framework follows four main steps, (i) the characterization of the initial condition, (ii) the risk assessment, (iii) the definition of requirements for a safe design, and (iv) the conceptualization of the hybrid workstation with all the normative implications it entails. We applied this methodology to a case study in an assembly workstation of a furniture manufacturing company. Results show that the methodology adopted sets an adequate foundation to accelerate the design and development of new human-centered collaborative robotic workstations.

Topics & Concepts

WorkstationConceptualizationRoboticsEngineeringWorkloadHuman factors and ergonomicsArtificial intelligenceSystems engineeringComputer scienceEngineering managementSoftware engineeringManufacturing engineeringHuman–computer interactionPoison controlRobotMechanical engineeringOperating systemMedicineEnvironmental healthErgonomics and Human FactorsOccupational Health and Safety ResearchDigital Transformation in Industry