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Human-Robot Collaboration in Manufacturing

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Dear Colleagues,

Nowadays, robots collaborate with human workers in manufacturing; such robots are termed cobots. On the one hand, they reduce the incidence and severity of ergonomic injuries that can appear due to physical repetitive movements and, on the other hand, they may improve safety, quality, and productivity. Many manufacturers are introducing new robots into their human production lines that work together with humans, with setups based on different types of safety designs.

Moreover, provision of assistance to skilled workers is becoming crucial in work environments within manufacturing. Beyond ergonomic or safety issues, industrial companies are starting to consider new qualification needs and technical competences with regard to the operators. Decisions in the overall work processes are communicated to the operators to improve their information and skills. Hence, the most recent research activity in the field of human–robot collaboration in the context of manufacturing involves the consideration of cognitive and social dimensions through the development of assistant agents or advisor robots designed for increasing productivity and effective work organization.

This Special Issue focuses on the analysis, design, implementation, and evaluation of introducing robots collaborating with humans in manufacturing tasks.

Prof. Dr. Cecilio Angulo
Guest Editor

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Keywords

Human–robot collaboration
Robotics in the fourth industrial revolution
Ergonomics in industrial human–robot collaboration
Safety in industrial human–robot collaboration
Organizational issues related with robot introduction in industry
Improving operator skills in human–robot industrial tasks
Cognitive and social dimension in industrial human–robot collaboration
Metrics in human–robot collaboration
Implementation of human–robot collaboration tasks in manufacturing
Advisors robots for operators in Industry 4.0

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Research

16 pages, 1079 KiB

Open AccessArticle

Analysing Factory Workers’ Acceptance of Collaborative Robots: A Web-Based Tool for Company Representatives

by Marco Baumgartner, Tobias Kopp and Steffen Kinkel

Electronics 2022, 11(1), 145; https://doi.org/10.3390/electronics11010145 - 4 Jan 2022

Cited by 17 | Viewed by 4190

Abstract

Collaborative robots are a new type of lightweight robots that are especially suitable for small and medium-sized enterprises. They offer new interaction opportunities and thereby pose new challenges with regard to technology acceptance. Despite acknowledging the importance of acceptance issues, small and medium-sized enterprises often lack coherent strategies to identify barriers and foster acceptance. Therefore, in this article, we present a collection of crucial acceptance factors with regard to collaborative robot use at the industrial workplace. Based on these factors, we present a web-based tool to estimate employee acceptance, to provide company representatives with practical recommendations and to stimulate reflection on acceptance issues. An evaluation with three German small and medium-sized enterprises reveals that the tool’s concept meets the demands of small and medium-sized enterprises and is perceived as beneficial as it raises awareness and deepens knowledge on this topic. In order to realise economic potentials, further low-threshold usable tools are needed to transfer research findings into the daily practice of small and medium-sized enterprises. Full article

(This article belongs to the Special Issue Human-Robot Collaboration in Manufacturing)

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19 pages, 7626 KiB

Open AccessFeature PaperArticle

Cognitive Interaction Analysis in Human–Robot Collaboration Using an Assembly Task

by Alejandro Chacón, Pere Ponsa and Cecilio Angulo

Electronics 2021, 10(11), 1317; https://doi.org/10.3390/electronics10111317 - 31 May 2021

Cited by 23 | Viewed by 4808

Abstract

In human–robot collaborative assembly tasks, it is necessary to properly balance skills to maximize productivity. Human operators can contribute with their abilities in dexterous manipulation, reasoning and problem solving, but a bounded workload (cognitive, physical, and timing) should be assigned for the task. Collaborative robots can provide accurate, quick and precise physical work skills, but they have constrained cognitive interaction capacity and low dexterous ability. In this work, an experimental setup is introduced in the form of a laboratory case study in which the task performance of the human–robot team and the mental workload of the humans are analyzed for an assembly task. We demonstrate that an operator working on a main high-demanding cognitive task can also comply with a secondary task (assembly) mainly developed for a robot asking for some cognitive and dexterous human capacities producing a very low impact on the primary task. In this form, skills are well balanced, and the operator is satisfied with the working conditions. Full article

(This article belongs to the Special Issue Human-Robot Collaboration in Manufacturing)

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