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Digital twin- and extended reality-based telepresence for collaborative robot programming in the 6G perspective

Davide Calandra, Filippo Gabriele Pratticò, Alberto Cannavò, Claudio Casetti, Fabrizio Lamberti

2022Digital Communications and Networks33 citationsDOIOpen Access PDF

Abstract

In the context of Industry 4.0, a paradigm shift from traditional industrial manipulators to Collaborative Robots (CRs) is ongoing, with the latter serving ever more closely humans as auxiliary tools in many production processes. In this scenario, continuous technological advancements offer new opportunities for further innovating robotics and other areas of next-generation industry. For example, 6G could play a prominent role due to its human-centric view of the industrial domains. In particular, its expected dependability features will pave the way for new applications exploiting highly effective Digital Twin (DT)- and eXtended Reality (XR)-based telepresence. In this work, a novel application for the above technologies allowing two distant users to collaborate in the programming of a CR is proposed. The approach encompasses demanding data flows (e.g., point cloud-based streaming of collaborating users and robotic environment), with network latency and bandwidth constraints. Results obtained by analyzing this approach from the viewpoint of network requirements in a setup designed to emulate 6G connectivity indicate that the expected performance of forthcoming mobile networks will make it fully feasible in principle.

Topics & Concepts

Computer scienceRobotPerspective (graphical)RoboticsHuman–computer interactionSnapshot (computer storage)Context (archaeology)Cloud computingArtificial intelligenceOperating systemPaleontologyBiologyAugmented Reality ApplicationsVirtual Reality Applications and ImpactsDigital Transformation in Industry
Digital twin- and extended reality-based telepresence for collaborative robot programming in the 6G perspective | Litcius