Haptic interfaces for virtual environments: perceived instability and force constancy in haptic sensing of virtual surfaces.
Identifieur interne : 000C77 ( Ncbi/Checkpoint ); précédent : 000C76; suivant : 000C78Haptic interfaces for virtual environments: perceived instability and force constancy in haptic sensing of virtual surfaces.
Auteurs : Hong Z. Tan [États-Unis]Source :
- Canadian journal of experimental psychology = Revue canadienne de psychologie expérimentale [ 1196-1961 ] ; 2007.
English descriptors
- KwdEn :
- MESH :
Abstract
Haptic interfaces are becoming more commonplace in virtual environment and teleoperation systems. There is a growing need to not only continue to improve hardware platforms and rendering algorithms, but evaluate human performance with haptic interfaces. This review summarizes two recent studies inspired by perception problems in using haptic interfaces to interact with virtual environments. The first study evaluated perceived quality of virtual haptic textures and discovered several types of perceived instability and their sources. We found that the buzzing type of perceived instability was most likely due to the mechanical resonance of the haptic interface hardware, and the aliveness type of perceived instability due to our inability to sense the slight movements of our hands in free space. The second study focused on the motor strategy employed during interaction with a virtual surface via a force-feedback haptic interface. We found that users tended to maintain a constant penetration force into a virtual surface when interacting with the surface. This can result in a reversal in perceived relative surface heights if the taller surface is rendered with a lower stiffness, thereby resulting in an erroneous perception of the virtual environment being rendered. For both studies, possible solutions to improving human perception of virtual and remote objects via hardware and/or software are discussed.
PubMed: 17974320
Affiliations:
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pubmed:17974320Le document en format XML
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<author><name sortKey="Tan, Hong Z" sort="Tan, Hong Z" uniqKey="Tan H" first="Hong Z" last="Tan">Hong Z. Tan</name>
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<front><div type="abstract" xml:lang="en">Haptic interfaces are becoming more commonplace in virtual environment and teleoperation systems. There is a growing need to not only continue to improve hardware platforms and rendering algorithms, but evaluate human performance with haptic interfaces. This review summarizes two recent studies inspired by perception problems in using haptic interfaces to interact with virtual environments. The first study evaluated perceived quality of virtual haptic textures and discovered several types of perceived instability and their sources. We found that the buzzing type of perceived instability was most likely due to the mechanical resonance of the haptic interface hardware, and the aliveness type of perceived instability due to our inability to sense the slight movements of our hands in free space. The second study focused on the motor strategy employed during interaction with a virtual surface via a force-feedback haptic interface. We found that users tended to maintain a constant penetration force into a virtual surface when interacting with the surface. This can result in a reversal in perceived relative surface heights if the taller surface is rendered with a lower stiffness, thereby resulting in an erroneous perception of the virtual environment being rendered. For both studies, possible solutions to improving human perception of virtual and remote objects via hardware and/or software are discussed.</div>
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