Takura Yanagi scite author profile

A key goal in human-robot interaction (HRI) is to design scenarios between humanoid robots and humans such that the interaction is perceived as collaborative and natural, yet safe and comfortable for the human. Human skills like verbal and non-verbal communication are essential elements as humans tend to attribute social behaviors to robots. However, aspects like the uncanny valley and different technical affinity levels can impede the success of HRI scenarios, which has consequences on the establishment of long-term interaction qualities like trust and rapport. In the present study, we investigate the impact of a humanoid robot on human emotional responses during the performance of a cognitively demanding task. We set up three different conditions for the robot with increasing levels of social cue expressions in a between-group study design. For the analysis of emotions, we consider the eye gaze behavior, arousal-valence for affective states, and the detection of action units. Our analysis reveals that the participants display a high tendency toward positive emotions in presence of a robot with clear social skills compared to other conditions, where we show how emotions occur only at task onset. Our study also shows how different expression levels influence the analysis of the robots' role in HRI. Finally, we critically discuss the current trend of automatized emotion or affective state recognition in HRI and demonstrate issues that have direct consequences on the interpretation and, therefore, claims about human emotions in HRI studies.

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3D reconstruction of urban environments using in-vehicle fisheye camera

Ishii

Sakai

Ito

et al. 2013

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Seafloor Mapping by 360 Degree View Camera with Sonar Supports

Sawa

Yanagi

Kusayanagi

et al. 2018

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On the Influence of Social Robots in Cognitive Multitasking

Aoki

Jirak

Sandini

et al. 2022

Int. J. Human. Robot.

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Designing a humanoid robot to assist in performing cognitive multitasking is not straightforward, as the robot’s communication itself could interfere with humans’ concentration on the tasks. Therefore, we focused on the social facilitation effect caused by the presence of social robots. According to our study, a social robot that expressed its willingness to collaborate in a positive manner and provided advice with social signals only in some tasks, improved the human performance even in another task where no direct advice was given. Moreover, the social robot reduced the mental workload measured by the integrated skin conductance response during the multitasking scenario. Our results showed a new approach to improve multitasking performance in a mixed team with humans and social humanoid robots.

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Takura Yanagi

A Novel Wire-driven 3D Eyebrow Design for Communication with Humanoid Robot iCub

Is It Me or the Robot? A Critical Evaluation of Human Affective State Recognition in a Cognitive Task

3D reconstruction of urban environments using in-vehicle fisheye camera

Seafloor Mapping by 360 Degree View Camera with Sonar Supports

On the Influence of Social Robots in Cognitive Multitasking

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