Voluntary Attention Improves Performance Similarly Around the Visual Field

Overview

Journal Atten Percept Psychophys

Publisher Springer

Specialties Psychiatry
Psychology

Date 2021 May 26

PMID 34036535

Citations 21

Authors

Simran Purokayastha

Mariel Roberts

Marisa Carrasco

Affiliations

Soon will be listed here.

Abstract

Performance as a function of polar angle at isoeccentric locations across the visual field is known as a performance field (PF) and is characterized by two asymmetries: the HVA (horizontal-vertical anisotropy) and VMA (vertical meridian asymmetry). Exogenous (involuntary) spatial attention does not affect the shape of the PF, improving performance similarly across polar angle. Here we investigated whether endogenous (voluntary) spatial attention, a flexible mechanism, can attenuate these perceptual asymmetries. Twenty participants performed an orientation discrimination task while their endogenous attention was either directed to the target location or distributed across all possible locations. The effects of attention were assessed either using the same stimulus contrast across locations or equating difficulty across locations using individually titrated contrast thresholds. In both experiments, endogenous attention similarly improved performance at all locations, maintaining the canonical PF shape. Thus, despite its voluntary nature, like exogenous attention, endogenous attention cannot alleviate perceptual asymmetries at isoeccentric locations.

Citing Articles

Opposite asymmetry in visual perception of humans and macaques.

Tuncok E, Kiorpes L, Carrasco M Curr Biol. 2025; 35(3):681-687.e4.

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Asymmetries in foveal vision.

Jenks S, Carrasco M, Poletti M bioRxiv. 2025; .

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The vertical position of visual information conditions spatial memory performance in healthy aging.

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Presaccadic preview shapes postsaccadic processing more where perception is poor.

Liu X, Melcher D, Carrasco M, Hanning N Proc Natl Acad Sci U S A. 2024; 121(37):e2411293121.

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Presaccadic Attention Enhances and Reshapes the Contrast Sensitivity Function Differentially around the Visual Field.

Kwak Y, Zhao Y, Lu Z, Hanning N, Carrasco M eNeuro. 2024; 11(9).

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