Industry of the Future, Future of Work: The Case of Collaborative Robotics
Communication avec acte
Auteur
BENCHEKROUN, Tahar-HakimBOUNOUAR, Mouad 
SIADAT, Ali BEAREE, RichardRésumé
This communication discusses the resulting changes in the field of design project management generated by the industry of the future and its promises, with a special focus on collaborative robotics. Among the guiding issues of this work, we will focus on the importance of including such an intention to cobotize some or all of the tasks initially assigned to human operators, during the strategic stakes of the design process and to instruct and support it by the potential contributions of a bottum up approach centered on the real activities, mobilized and deployed during the realization of the tasks which are objects of cobotization. This discussion is based on an industrial case study, aimed at assisting a finishing workstation (the last stage of a production process) for fragile mechanical parts used in the manufacture of metal parts for the aeronautics sector.
Fichier(s) constituant cette publication
Cette publication figure dans le(s) laboratoire(s) suivant(s)
Documents liés
Visualiser des documents liés par titre, auteur, créateur et sujet.
-
Communication avec acte; ; ; ; ; ; ; ; ;SIADAT, Ali; BEAREE, Richard (Springer International Publishing, 2021)
This communication aims to present a cross-perspective – robotics, industrial engineering, sociology and ergonomics – research project experience dealing with development of collaborative robotics in SMEs. Our conviction ...
-
Communication avec acte; ;KLEMENT, Nathalie; SIADAT, Ali; BEAREE, Richard (IEEE, 2020)
Collaborative robots (cobots) are presented as a way of business competitiveness by combining human skills with robotic advantages. The place of human operators in this context is the subject of much discussion. Including ...
-
Article dans une revue avec comité de lecture;BEAREE, Richard; SIADAT, Ali; (Springer, 2022)
Industrial cobotics is presented as a way of business competitiveness by combining human skills and decision making with robotic advantages. The place and safety of humans in cobotic (collaborative robotic) systems are the ...
-
Communication avec acte;BEAREE, Richard; GIBARU, Olivier (2016)
This paper presents a novel approach to generate online jerk-limited trajectories for multi-DOF robotic systems. Finite Impulse Response filters are used to efficiently turn low computational cost acceleration-limited ...
-
Article dans une revue avec comité de lecture;BEAREE, Richard (IEEE, 2018)
Considering a set of robotic tasks which involve physical interaction with the environment, the theoretical knowledge of the full force capacity of the manipulator is a key factor in the design or development of an efficient ...