Distortions in definite distance and shape perception as measured by reaching without and with haptic feedback

GP Bingham; F Zaal; D Robin; JA Shull

doi:10.1037/0096-1523.26.4.1436

Distortions in definite distance and shape perception as measured by reaching without and with haptic feedback

GP Bingham^*, F Zaal, D Robin, JA Shull

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

63 Citations (Scopus)

Abstract

Psychophysical studies reveal distortions in perception of distance and shape. Are reaches calibrated to eliminate distortions? Participants reached to the front side. or back of a target sphere. In Experiment 1, feedforward reaches yielded distortions and outward drift. In Experiment 2, haptic feedback corrected distortions and instability. In Experiment 3, feedforward caches with only haptic experience of targets replicated the shape distortions but drifted inward. This showed that outward drift in Experiment 1 was visually driven. In Experiment 4, visually guided reaches were accurate when participants used binocular vision but when they used monocular vision, reaches were distorted. Haptic feedback corrected inaccuracy and instability of distance but did not correct monocular shape distortions. Dynamic binocular vision is representative and accurate and merits further study.

Original language	English
Pages (from-to)	1436-1460
Number of pages	25
Journal	JOURNAL OF EXPERIMENTAL PSYCHOLOGY-HUMAN PERCEPTION AND PERFORMANCE
Volume	26
Issue number	4
DOIs	https://doi.org/10.1037/0096-1523.26.4.1436
Publication status	Published - Aug-2000
Externally published	Yes

Keywords

EGOCENTRIC DISTANCE
VISUAL SPACE
MOTION
STEREOPSIS
PATHWAYS
OBJECTS

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title = "Distortions in definite distance and shape perception as measured by reaching without and with haptic feedback",

abstract = "Psychophysical studies reveal distortions in perception of distance and shape. Are reaches calibrated to eliminate distortions? Participants reached to the front side. or back of a target sphere. In Experiment 1, feedforward reaches yielded distortions and outward drift. In Experiment 2, haptic feedback corrected distortions and instability. In Experiment 3, feedforward caches with only haptic experience of targets replicated the shape distortions but drifted inward. This showed that outward drift in Experiment 1 was visually driven. In Experiment 4, visually guided reaches were accurate when participants used binocular vision but when they used monocular vision, reaches were distorted. Haptic feedback corrected inaccuracy and instability of distance but did not correct monocular shape distortions. Dynamic binocular vision is representative and accurate and merits further study.",

keywords = "EGOCENTRIC DISTANCE, VISUAL SPACE, MOTION, STEREOPSIS, PATHWAYS, OBJECTS",

author = "GP Bingham and F Zaal and D Robin and JA Shull",

year = "2000",

month = aug,

doi = "10.1037/0096-1523.26.4.1436",

language = "English",

volume = "26",

pages = "1436--1460",

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publisher = "AMER PSYCHOLOGICAL ASSOC",

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AU - Bingham, GP

AU - Zaal, F

AU - Robin, D

AU - Shull, JA

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N2 - Psychophysical studies reveal distortions in perception of distance and shape. Are reaches calibrated to eliminate distortions? Participants reached to the front side. or back of a target sphere. In Experiment 1, feedforward reaches yielded distortions and outward drift. In Experiment 2, haptic feedback corrected distortions and instability. In Experiment 3, feedforward caches with only haptic experience of targets replicated the shape distortions but drifted inward. This showed that outward drift in Experiment 1 was visually driven. In Experiment 4, visually guided reaches were accurate when participants used binocular vision but when they used monocular vision, reaches were distorted. Haptic feedback corrected inaccuracy and instability of distance but did not correct monocular shape distortions. Dynamic binocular vision is representative and accurate and merits further study.

AB - Psychophysical studies reveal distortions in perception of distance and shape. Are reaches calibrated to eliminate distortions? Participants reached to the front side. or back of a target sphere. In Experiment 1, feedforward reaches yielded distortions and outward drift. In Experiment 2, haptic feedback corrected distortions and instability. In Experiment 3, feedforward caches with only haptic experience of targets replicated the shape distortions but drifted inward. This showed that outward drift in Experiment 1 was visually driven. In Experiment 4, visually guided reaches were accurate when participants used binocular vision but when they used monocular vision, reaches were distorted. Haptic feedback corrected inaccuracy and instability of distance but did not correct monocular shape distortions. Dynamic binocular vision is representative and accurate and merits further study.

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KW - VISUAL SPACE

KW - MOTION

KW - STEREOPSIS

KW - PATHWAYS

KW - OBJECTS

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DO - 10.1037/0096-1523.26.4.1436

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JO - JOURNAL OF EXPERIMENTAL PSYCHOLOGY-HUMAN PERCEPTION AND PERFORMANCE

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ER -

Distortions in definite distance and shape perception as measured by reaching without and with haptic feedback

Abstract

Keywords

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