Use of simulated thermal cues for material discrimination and identification with a multi-fingered display

Authors
Yang, Gi-HunJones, Lynette A.Kwon, Dong-Soo
Issue Date
2008-02
Publisher
MIT PRESS
Citation
PRESENCE-TELEOPERATORS AND VIRTUAL ENVIRONMENTS, v.17, no.1, pp.29 - 42
Abstract
Thermal cues provide information about the thermal properties of an object held in the hand. These cues can be simulated in a thermal display and used to assist in identifying the object. Two experiments were conducted using a thermal display that simulated the cues associated with contact with different materials. The thermal contact model was based on a semi-infinite body model that included thermal contact resistance and blood perfusion. Its performance was evaluated in two experiments, the first of which involved discriminating between simulated materials, and in the second, subjects were required to identify simulated materials based on the thermal cues presented to one, three, or five fingers. The results from the first experiment indicated that when the temperature profile associated with contact with a real material is presented to the finger, subjects can use this cue to discriminate between simulated materials. Their performance on this task is comparable to that achieved with real materials with similar thermal properties. In the second experiment, the accuracy with which subjects identified a simulated material based on thermal cues improved as the number of fingers stimulated increased, suggesting that spatial summation of cold occurs when the area stimulated is noncontiguous. However, most of the improvement in identifying materials occurred when the display presented thermal cues to three as compared to one finger, with little further enhancement in performance when five fingers were stimulated. These results indicate that thermal displays can be used effectively to present information about the material composition of objects in virtual environments.
Keywords
SPATIAL SUMMATION; SPATIAL SUMMATION; Thermal display; multi-fingered display; thermal model; haptic thermal feedback; thermal contact model
ISSN
1054-7460
URI
https://pubs.kist.re.kr/handle/201004/133802
DOI
10.1162/pres.17.1.29
Appears in Collections:
KIST Article > 2008
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