2021
DOI: 10.3389/fpsyg.2021.640186
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The Role of Frustration in Human–Robot Interaction – What Is Needed for a Successful Collaboration?

Abstract: To realize a successful and collaborative interaction between human and robots remains a big challenge. Emotional reactions of the user provide crucial information for a successful interaction. These reactions carry key factors to prevent errors and fatal bidirectional misunderstanding. In cases where human–machine interaction does not proceed as expected, negative emotions, like frustration, can arise. Therefore, it is important to identify frustration in a human–machine interaction and to investigate its imp… Show more

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Cited by 28 publications
(14 citation statements)
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“…Multi-modal approaches focus on detecting multiple affective states, nonetheless, one of the most commonly experienced affective states in HRI is frustration [23]. Therefore, several approaches have been focused on detecting it.…”
Section: Multi-modal Affect Detectionmentioning
confidence: 99%
“…Multi-modal approaches focus on detecting multiple affective states, nonetheless, one of the most commonly experienced affective states in HRI is frustration [23]. Therefore, several approaches have been focused on detecting it.…”
Section: Multi-modal Affect Detectionmentioning
confidence: 99%
“…When employees are overwhelmed with the use of innovative technologies, this triggers work-related stress, which, among other factors, negatively affects psychosocial health [80]. Weidemann and Rußwinkel (2021) described what happens when problems occur in the interaction between humans and robots. When robotic systems display erroneous behavior, it triggers counterproductive emotional states in users, such as frustration, feelings of inferiority to technology, and loss of control [81].…”
Section: A Vision Of Systems Medicine-oriented Healthcare In the Futurementioning
confidence: 99%
“…Weidemann and Rußwinkel (2021) described what happens when problems occur in the interaction between humans and robots. When robotic systems display erroneous behavior, it triggers counterproductive emotional states in users, such as frustration, feelings of inferiority to technology, and loss of control [81]. As for a well-functioning human-machine interaction, the concerns, expectations, and capabilities of users regarding new key technologies should be considered when implementing systems medicine.…”
Section: A Vision Of Systems Medicine-oriented Healthcare In the Futurementioning
confidence: 99%
“…2021) Develop mechanisms for robots to understand and react to emotions, like pain, fear, panic, confusion, and distress, to correctly identify warning conditions requiring a reaction. Kulic and Croft (2007), Leite et al (2013), Le andLee (2014), Jung (2017), Bagheri et al (2020), de Kervenoael et al (2020, Spezialetti et al (2020), Weidemann and Rußwinkel (2021) Perform task analysis, communication analysis, workflow analysis, and usability studies of robot interactions with people in the HRE (users, bystanders, customer service agents, etc.). Test in real-world environments, under normal and degraded conditions, to identify challenges, potential degraded states, and conflicts originating from interactions within the HRE.…”
Section: Principle Research Directions and Recommendations Related Literaturementioning
confidence: 99%