Robot Acceptance at Work: A Multilevel Analysis Based on 27 EU Countries

Turja, Tuuli; Oksanen, Atte

doi:10.1007/s12369-019-00526-x

Cited by 70 publications

(38 citation statements)

References 38 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Next to design variations (e.g., zoomorphic, caricatured [21]), the context should continue to be considered in a broader sense. On the one hand, this refers to the integration of further automation contexts (e.g., smart living environments [48]) and, on the other, to the investigation of cultural and country-specific differences as the acceptance of robot technology and trust may be motivated both personally and socially [22,49]. Since the participants of this survey were acquired in Germany, it would be of great interest to examine the extent to which the obtained key findings are different or similar as regards the perception and evaluation of test persons with diverse cultural backgrounds, experience in dealing with, and attitudes toward robots, especially as there are already indications for cultural differences in users' likability and trust toward robots between Germany and Asian cultures, for example [22].…”

Section: Limitationsmentioning

confidence: 99%

How context and design shape human-robot trust and attributions

Biermann

Brauner

Ziefle

2020

Paladyn, Journal of Behavioral Robotics

View full text Add to dashboard Cite

In increasingly digitized working and living environments, human-robot collaboration is growing fast with human trust toward robotic collaboration as a key factor for the innovative teamwork to succeed. This article explores the impact of design factors of the robotic interface (anthropomorphic vs functional) and usage context (production vs care) on human–robot trust and attributions. The results of a scenario-based survey with N=228 participants showed a higher willingness to collaborate with production robots compared to care. Context and design influenced the trust attributed to the robots: robots with a technical appearance in production were trusted more than anthropomorphic robots or robots in the care context. The evaluation of attributions by means of a semantic differential showed that differences in robot design were less pronounced for the production context in comparison to the care context. In the latter, anthropomorphic robots were associated with positive attributes. The results contribute to a better understanding of the complex nature of trust in automation and can be used to identify and shape use case-specific risk perceptions as well as perceived opportunities to interacting with collaborative robots. Findings of this study are pertinent to research (e.g., experts in human–robot interaction) and industry, with special regard given to the technical development and design.

show abstract

Section: Limitationsmentioning

confidence: 99%

How context and design shape human-robot trust and attributions

Biermann

Brauner

Ziefle

2020

Paladyn, Journal of Behavioral Robotics

View full text Add to dashboard Cite

show abstract

“…Aligning the cobot's position to the employee's body dimensions was considered average important (M = 3.57). The same holds true for employee demographics (M = 3.23) like age, gender, and cultural background, although prior research reveals that individual as well as cultural factors shape the acceptance of cobots, since they are often related to the affinity for technology [112].…”

Section: Appropriate Cobot Configurationmentioning

confidence: 88%

“…Therefore, these empirical results cannot be generalized to other countries, especially since previous studies highlight the influence of a subject's culture on their general attitude toward robots and their willingness to work with them [116]. However, cross-natural studies revealed that individual factors are usually more important than country-specific ones when it comes to robot acceptance at work, which suggests that results should be transferrable to other countries at least to some extent [112]. Thereby, it has to be taken into account that the density of industrial robots in Germany is far above average with 338 units per 10,000 employees compared to 99 units per 10,000 employees worldwide [1].…”

Section: Limitationsmentioning

confidence: 90%

“…Thereby, it has to be taken into account that the density of industrial robots in Germany is far above average with 338 units per 10,000 employees compared to 99 units per 10,000 employees worldwide [1]. Additionally, Germany is a technology-oriented country with a comparably high degree of automation, which is associated with high robot acceptance and experience in integrating them in production lines [112], and with a comparably high shortage of skilled workers which puts job attractiveness into focus [61]. Therefore, importance ratings might differ in countries with different characteristics in that factors related to the well-being of employees might be assigned less importance in countries with an abundant supply of labor for instance.…”

Section: Limitationsmentioning

confidence: 99%

See 1 more Smart Citation

Success factors for introducing industrial human-robot interaction in practice: an empirically driven framework

Kopp

Baumgartner

Kinkel

2020

Int J Adv Manuf Technol

100

View full text Add to dashboard Cite

Human-robot interaction (HRI) promises to be a means whereby manufacturing companies will be able to address current challenges like a higher demand for customization. However, despite comparably low costs, there are only few applications in practice. To date, it remains unclear which factors facilitate or hinder the successful introduction of industrial collaborative robots (cobots). In a three-step approach, we first developed a comprehensive two-dimensional framework covering three separate phases and four essential components for human-robot working systems. Secondly, we reviewed related literature to identify relevant success factors. Thirdly, in an online survey we asked leading representatives of German manufacturing companies (n = 81) to assess the importance of these factors from a practical point of view. The results reveal that besides technology-related factors like occupational safety and appropriate cobot configuration, employee-centered factors like the fear of job loss and ensuring an appropriate level of trust in the robot are considered important. However, company representatives seem to underestimate the impact of subtle measures to increase employee acceptance which could be incorporated into internal communication strategies prior to and during the introduction of cobots. Comparative analysis based on three distinct application scenarios suggests that most success factors’ practical importance is independent of the motivation for implementing HRI. Furthermore, answers from practitioners in free-text fields reveal that success factors which intuitively come to their mind such as financial factors are not necessarily perceived most important. Finally, we argue for more application-oriented research that focuses on practically relevant factors to guide HRI research, inform cobot development, and support companies in overcoming apparent barriers.

show abstract

“…The use of robots may increase and improve the quality of products as well as decrease production costs. Nowadays, robots are widely used as workers in manufacturing sectors to replace human workers [28], [29]. Examples of manufacturing robots' tasks include packaging, locating, assembling, and so on [30].…”

Section: Roboticsmentioning

confidence: 99%

A Systematic Review on Fusion Techniques and Approaches Used in Applications

Jusoh

Almajali

2020

IEEE Access

View full text Add to dashboard Cite

Fusion technologies have rapidly evolved. These technologies are normally customized according to the needs of domains. Despite a large number of publications on intelligence fusion applications for various domains, they are scattered. The aim of this review is to present the state of the art for intelligence fusion applications within a specific domain. We identified three major domains for the purpose, namely robotics, military, and healthcare, during the initial process of the systematic review. These three domains are always in need of superior intelligence. Articles were searched mainly in IEEE Xplore. We limit the range of publications to the year 2014 to 2019, to focus on the most recent publications. We adopt the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) protocol to screen, filter and evaluate qualities of each retrieved article. As a result, we retrieved 675 articles at the initial stage of the search, we conducted screening and filtering process and reviewed 153 articles potential articles, and finally, we excluded 36 articles as they do not comply with our quality assessment criteria. Only 117 articles are included. The results of this study are a list of classified applications within the domains and a number of relevant techniques or approaches used in each classified application. The finding of this review showed that the most published works for the use of intelligence fusion are mainly applications in the robotics domain, where mostly used techniques are Kalman Filter and its variants. Outcomes of this study can be a guideline or an insight for researchers to further develop and implement in this field.

show abstract

Robot Acceptance at Work: A Multilevel Analysis Based on 27 EU Countries

Cited by 70 publications

References 38 publications

How context and design shape human-robot trust and attributions

How context and design shape human-robot trust and attributions

Success factors for introducing industrial human-robot interaction in practice: an empirically driven framework

A Systematic Review on Fusion Techniques and Approaches Used in Applications

Contact Info

Product

Resources

About