Human Perception of a Haptic Shape-changing Interface with Variable Rigidity and Size

This paper studies the characteristics of the human perception of a haptic shape-changing interface, capable of altering its size and rigidity simultaneously for presenting characteristics of virtual objects physically. The haptic interface is composed of an array of computer-controlled balloons, wi...

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Published inProceedings (IEEE Conference on Virtual Reality and 3D User Interfaces. Online) pp. 858 - 859
Main Authors Boem, Alberto, Enzaki, Yuuki, Yano, Hiroaki, Iwata, Hiroo
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.03.2019
Subjects
Haptic interfaces
Human computer interaction
Human-centered computing-Human computer interaction (HCI)-Empirical studies in HCI
Human-centered computing-Human computer interaction (HCI)-Interaction devices-Haptic devices'Treemaps
Indexes
Informatics
Measurement
Task analysis
Virtual reality
Online AccessGet full text
ISSN2642-5254
DOI10.1109/VR.2019.8798214

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Abstract This paper studies the characteristics of the human perception of a haptic shape-changing interface, capable of altering its size and rigidity simultaneously for presenting characteristics of virtual objects physically. The haptic interface is composed of an array of computer-controlled balloons, with two mechanisms, one for changing size and one for changing rigidity. We manufactured two balloons and conducted psychophysical experiments with twenty subjects to measure perceived sensory thresholds and haptic perception of the change of size and rigidity. The results show that subjects can correctly discriminate different conditions with an acceptable level of accuracy. Our results also suggest that the proposed system can present an ample range of rigidities and variations of the size in a way that is compatible with the human haptic perception of physical materials. Currently, shape-changing interfaces do not hold a defined position in the current VR / AR research. Our results provide basic knowledge for developing novel types of haptic interfaces that can enhance the haptic perception of virtual objects, allowing rich embodied interactions, and synchronize the virtual and the physical world through computationally-controlled materiality.
AbstractList This paper studies the characteristics of the human perception of a haptic shape-changing interface, capable of altering its size and rigidity simultaneously for presenting characteristics of virtual objects physically. The haptic interface is composed of an array of computer-controlled balloons, with two mechanisms, one for changing size and one for changing rigidity. We manufactured two balloons and conducted psychophysical experiments with twenty subjects to measure perceived sensory thresholds and haptic perception of the change of size and rigidity. The results show that subjects can correctly discriminate different conditions with an acceptable level of accuracy. Our results also suggest that the proposed system can present an ample range of rigidities and variations of the size in a way that is compatible with the human haptic perception of physical materials. Currently, shape-changing interfaces do not hold a defined position in the current VR / AR research. Our results provide basic knowledge for developing novel types of haptic interfaces that can enhance the haptic perception of virtual objects, allowing rich embodied interactions, and synchronize the virtual and the physical world through computationally-controlled materiality.
Author Iwata, Hiroo
Enzaki, Yuuki
Boem, Alberto
Yano, Hiroaki
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  fullname: Iwata, Hiroo
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  organization: Empowerment Inf., Univ. of Tsukuba, Tsukuba, Japan
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Snippet This paper studies the characteristics of the human perception of a haptic shape-changing interface, capable of altering its size and rigidity simultaneously...
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StartPage 858
SubjectTerms Haptic interfaces
Human computer interaction
Human-centered computing-Human computer interaction (HCI)-Empirical studies in HCI
Human-centered computing-Human computer interaction (HCI)-Interaction devices-Haptic devices'Treemaps
Indexes
Informatics
Measurement
Task analysis
Virtual reality
Title Human Perception of a Haptic Shape-changing Interface with Variable Rigidity and Size
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