Signalling Emotions with a Breathing Soft Robot

Klausen, Troels Aske; Farhadi, Ulrich; Vlachos, Evgenios; Jørgensen, Jonas

doi:10.1109/robosoft54090.2022.9762140

Cited by 14 publications

(6 citation statements)

References 29 publications

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“…Recently, several HRI studies explored the creation of novel robot expressions using silicone-based materials [11,15,18,21,28,29]. Hu and Hoffman [15] developed a pneumatically actuated skin for robots expressing emotions by changing the robot's skin (i.e., goosebumps and spikes), which can serve as both visual and haptic cues.…”

Section: Use Of Soft Materials For Robot Designmentioning

confidence: 99%

“…Sabinson and Green [29] introduced a pneumatic-actuated robotic surface to assist in regulating users' emotional states in confined spaces. Klausen et al [18] designed a non-anthropomorphic robot using silicone-based material that communicates emotions through breathing patterns. Larsen et al [21] implemented a dermis for a robot arm inflating to provide weight information.…”

Section: Use Of Soft Materials For Robot Designmentioning

confidence: 99%

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Sprout: Designing Expressivity for Robots Using Fiber-Embedded Actuator

Koike,

Wehner,

Mutlu

2024

Proceedings of the 2024 ACM/IEEE International Conference on Human-Robot Interaction

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Section: Use Of Soft Materials For Robot Designmentioning

confidence: 99%

Section: Use Of Soft Materials For Robot Designmentioning

confidence: 99%

Sprout: Designing Expressivity for Robots Using Fiber-Embedded Actuator

Koike,

Wehner,

Mutlu

2024

Proceedings of the 2024 ACM/IEEE International Conference on Human-Robot Interaction

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“…The haptic qualities and movements of soft robots have also been found to be more appealing than their looks [9]. It has also been demonstrated that specific emotional states (including arousal and pleasure) can be communicated to a human user by having a soft robot perform breath-like motions at different frequencies [11]. Similarly, in [4] it was shown that a pneumatically actuated soft robot could convey specific emotional states, actions, and patterns to users through its movement and gestures.…”

Section: Related Workmentioning

confidence: 99%

Comparing How Soft Robotic Tentacles and an Equivalent Traditional Robot are Described

Jørgensen

2023

Companion of the 2023 ACM/IEEE International Conference on Human-Robot Interaction

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Soft robotics technology has several technical benefits and enables inherently safer human-robot interaction (HRI). However, only few studies have addressed how people experience soft robots and how their embodiment and designs can meaningfully support HRI. The present study explores impressions formed in the physical meeting with soft robots. 94 participants interacted with one out of two soft robots or a similar traditional robot. Following interaction, they were asked what they thought the robot resembled and to describe the robot's appearance using five adjectives. The results show that different categories of items were used to describe each of the three robots' resemblances. Furthermore, a significant difference in the sentiment of the adjectives used was found -positive adjectives were predominantly used to describe the two soft robots, whereas there was an overweight of negative adjectives for the traditional robot. CCS CONCEPTS• Human-centered computing → Empirical studies in HCI.

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“…The robot is 12 cm in diameter, and has a height of 6.2 cm. It was manufactured from Ecoflex 00-30 silicone through a multi-step casting process using 3D printed molds [14]. An Arduino UNO R3 with a custom 8 channel motor shield was used to control 4 electrical pumps and 4 solenoid valves for actuation using pneumatic supply tubing with 1.5/3mm ID/OD.…”

Section: Robotmentioning

confidence: 99%

Exploring the Interaction Kinesics of a Soft Social Robot

Farhadi,

Klausen,

Jørgensen

et al. 2022

Communications in Computer and Information Science

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In this pilot study, we explore the kinesics of a non-humanoid pneumatically actuated soft robot developed for social human-robot interaction (HRI). The robot uses motion and gesture to communicate: it can tilt; expand; and perform movements reminiscent of breathing. To explore the robot's kinesics, we hand-coded 8 movement presets intended to represent a specific action, internal state/emotion, or pattern of motion: greeting; avoid; breathless; joyful; alarming; jellyfish; frighten; sigh. We then conducted an online survey where participants (N=59) chose words to describe their perception of each preset behavior. Semantic analysis of word choices indicates that the intended meaning was conveyed to users for most of the presets. Analysis of the general comments with text mining techniques showed that the robot was perceived as resembling an animal-like sea creature or a human body part (lungs, belly, or heart) and as communicating distinct emotional states. The results indicate that it is possible to communicate with a user solely through soft robotic movement, and suggest that soft robotics has applications within the design of affective interfaces and social robotics.

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Signalling Emotions with a Breathing Soft Robot

Cited by 14 publications

References 29 publications

Sprout: Designing Expressivity for Robots Using Fiber-Embedded Actuator

Sprout: Designing Expressivity for Robots Using Fiber-Embedded Actuator

Comparing How Soft Robotic Tentacles and an Equivalent Traditional Robot are Described

Exploring the Interaction Kinesics of a Soft Social Robot

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