Abstract
Recent studies have revealed some remarkably simple relationships between visual performance and the neuroanatomy of the visual pathways. The visual field is mapped topographically on the surface of the striate cortex in man; the projection is large for the central visual field and is progressively compressed towards the periphery. Visual acuity decreases with distance from the fovea in proportion to the estimated cortical magnification factor, M (the extent of striate cortex in millimetres corresponding to a degree of arc in visual space)1. If a stimulus is magnified at peripheral locations in proportion to 1/M, it becomes equally resolvable across the visual field2–5. This scaling procedure (M-scaling) maintains equivalence of the cortical projection of stimuli with different visual field loci. We have used M-scaling to investigate motion perception as a visual field variable. We report here that both the lower threshold of motion and adaptation to motion are uniform for M-scaled stimuli, and are related to the velocity of the ‘cortical image’.
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Johnston, A., Wright, M. Visual motion and cortical velocity. Nature 304, 436–438 (1983). https://doi.org/10.1038/304436a0
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DOI: https://doi.org/10.1038/304436a0
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