Reduced sampling efficiency causes degraded Vernier hyperacuity with normal aging: Vernier acuity in position noise

Roger W. Li; Brian Brown; Marion H. Edwards; Charlie V. Ngo; Sandy W. Chat; Dennis M. Levi

doi:10.1038/srep00300

Reduced sampling efficiency causes degraded Vernier hyperacuity with normal aging: Vernier acuity in position noise

Roger W. Li
, Brian Brown
, Marion H. Edwards
, Charlie V. Ngo
, Sandy W. Chat
, Dennis M. Levi

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

7 Scopus citations

Abstract

Vernier acuity, a form of visual hyperacuity, is amongst the most precise forms of spatial vision. Under optimal conditions Vernier thresholds are much finer than the inter-photoreceptor distance. Achievement of such high precision is based substantially on cortical computations, most likely in the primary visual cortex. Using stimuli with added positional noise, we show that Vernier processing is reduced with advancing age across a wide range of noise levels. Using an ideal observer model, we are able to characterize the mechanisms underlying age-related loss, and show that the reduction in Vernier acuity can be mainly attributed to the reduction in efficiency of sampling, with no significant change in the level of internal position noise, or spatial distortion, in the visual system.

Original language	English
Article number	300
Journal	Scientific Reports
Volume	2
DOIs	https://doi.org/10.1038/srep00300
State	Published - Mar 5 2012
Externally published	Yes

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title = "Reduced sampling efficiency causes degraded Vernier hyperacuity with normal aging: Vernier acuity in position noise",

abstract = "Vernier acuity, a form of visual hyperacuity, is amongst the most precise forms of spatial vision. Under optimal conditions Vernier thresholds are much finer than the inter-photoreceptor distance. Achievement of such high precision is based substantially on cortical computations, most likely in the primary visual cortex. Using stimuli with added positional noise, we show that Vernier processing is reduced with advancing age across a wide range of noise levels. Using an ideal observer model, we are able to characterize the mechanisms underlying age-related loss, and show that the reduction in Vernier acuity can be mainly attributed to the reduction in efficiency of sampling, with no significant change in the level of internal position noise, or spatial distortion, in the visual system.",

author = "Li, \{Roger W.\} and Brian Brown and Edwards, \{Marion H.\} and Ngo, \{Charlie V.\} and Chat, \{Sandy W.\} and Levi, \{Dennis M.\}",

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T1 - Reduced sampling efficiency causes degraded Vernier hyperacuity with normal aging

T2 - Vernier acuity in position noise

AU - Li, Roger W.

AU - Brown, Brian

AU - Edwards, Marion H.

AU - Ngo, Charlie V.

AU - Chat, Sandy W.

AU - Levi, Dennis M.

PY - 2012/3/5

Y1 - 2012/3/5

N2 - Vernier acuity, a form of visual hyperacuity, is amongst the most precise forms of spatial vision. Under optimal conditions Vernier thresholds are much finer than the inter-photoreceptor distance. Achievement of such high precision is based substantially on cortical computations, most likely in the primary visual cortex. Using stimuli with added positional noise, we show that Vernier processing is reduced with advancing age across a wide range of noise levels. Using an ideal observer model, we are able to characterize the mechanisms underlying age-related loss, and show that the reduction in Vernier acuity can be mainly attributed to the reduction in efficiency of sampling, with no significant change in the level of internal position noise, or spatial distortion, in the visual system.

AB - Vernier acuity, a form of visual hyperacuity, is amongst the most precise forms of spatial vision. Under optimal conditions Vernier thresholds are much finer than the inter-photoreceptor distance. Achievement of such high precision is based substantially on cortical computations, most likely in the primary visual cortex. Using stimuli with added positional noise, we show that Vernier processing is reduced with advancing age across a wide range of noise levels. Using an ideal observer model, we are able to characterize the mechanisms underlying age-related loss, and show that the reduction in Vernier acuity can be mainly attributed to the reduction in efficiency of sampling, with no significant change in the level of internal position noise, or spatial distortion, in the visual system.

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JO - Scientific Reports

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M1 - 300

ER -

Reduced sampling efficiency causes degraded Vernier hyperacuity with normal aging: Vernier acuity in position noise

Abstract

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