Litcius/Paper detail

Severe distortion in the representation of foveal visual image locations in short-term memory

Konstantin F. Willeke, Araceli R. Cardenas, Joachim Bellet, Ziad M. Hafed

2022Proceedings of the National Academy of Sciences16 citationsDOIOpen Access PDF

Abstract

The foveal visual image region provides the human visual system with the highest acuity. However, it is unclear whether such a high fidelity representational advantage is maintained when foveal image locations are committed to short-term memory. Here, we describe a paradoxically large distortion in foveal target location recall by humans. We briefly presented small, but high contrast, points of light at eccentricities ranging from 0.1 to 12°, while subjects maintained their line of sight on a stable target. After a brief memory period, the subjects indicated the remembered target locations via computer controlled cursors. The biggest localization errors, in terms of both directional deviations and amplitude percentage overshoots or undershoots, occurred for the most foveal targets, and such distortions were still present, albeit with qualitatively different patterns, when subjects shifted their gaze to indicate the remembered target locations. Foveal visual images are severely distorted in short-term memory.

Topics & Concepts

FovealGazeMicrosaccadeComputer visionDistortion (music)Contrast (vision)Computer scienceArtificial intelligenceRecallPsychologyEye movementCognitive psychologyOphthalmologyRetinalMedicineAmplifierComputer networkBandwidth (computing)Saccadic maskingVisual perception and processing mechanismsVisual Attention and Saliency DetectionNeural dynamics and brain function