A System-Dynamic Model for Human–Robot Interaction; Solving the Puzzle of Complex Interactions

A System-Dynamic Model for Human–Robot Interaction; Solving the Puzzle of Complex Interactions

Cooperative robots in the workspace have an effect on safety that is not yet fully understood. This work collates pre-existing knowledge on human, technological and organizational factors for human-robot interaction and develops a system dynamics model that captures the complex interactions. Expert...

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Bibliographic Details
Main Authors: Wouter Martinus Petrus Steijn, Coen Van Gulijk, Dolf Van der Beek, Teun Sluijs
Format: Article
Language:English
Published: MDPI AG 2023-01-01
Series:Safety
Subjects:
human-robot interaction
system dynamics
Delphi study
OSH
Online Access:https://www.mdpi.com/2313-576X/9/1/1
Description
Summary:Cooperative robots in the workspace have an effect on safety that is not yet fully understood. This work collates pre-existing knowledge on human, technological and organizational factors for human-robot interaction and develops a system dynamics model that captures the complex interactions. Expert consultation in the form of a Delphi study is used to derive a tractable model from pre-existing puzzle pieces. A final model is presented, which contains 10 nodes and 20 relationships containing the three key outcome factors of human-robot interaction, viz. Safety, Efficiency and Sustainability. By combining these factors into a single tractable framework, this model bridges the gap between individual efforts from previous works in the field of robotics.
ISSN:2313-576X

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