Keywords

Accommodation Control Model, Longitudinal Chromatic Aberration, Color-Opponent Cells

Abstract

Accommodation is the process by which the eye lens changes optical power to maintain a clear retinal image as the distance to the fixated object varies. Although luminance blur has long been considered the driving feature for accommodation, it is by definition unsigned (i.e., there is no difference between the defocus of an object closer or farther than the focus distance). Nonetheless, the visual system initially accommodates in the correct direction, implying that it exploits a cue with sign information. Here, we present a model of accommodation control based on such a cue: Longitudinal Chromatic Aberration (LCA). The model relies on color-opponent units, much like those observed among retinal ganglion cells, to make the computation required to use LCA to drive accommodation.

Start Date

18-5-2017 10:32 AM

End Date

18-5-2017 10:54 AM

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May 18th, 10:32 AM May 18th, 10:54 AM

Modeling Accommodation Control of the Human Eye: Chromatic Aberration and Color Opponency

Accommodation is the process by which the eye lens changes optical power to maintain a clear retinal image as the distance to the fixated object varies. Although luminance blur has long been considered the driving feature for accommodation, it is by definition unsigned (i.e., there is no difference between the defocus of an object closer or farther than the focus distance). Nonetheless, the visual system initially accommodates in the correct direction, implying that it exploits a cue with sign information. Here, we present a model of accommodation control based on such a cue: Longitudinal Chromatic Aberration (LCA). The model relies on color-opponent units, much like those observed among retinal ganglion cells, to make the computation required to use LCA to drive accommodation.