<p>Preferred packing arrangement of cones (average ± SD, %) calculated using Voronoi tiles at 418 µm temporal and superior eccentricities from the PRL.</p
In this paper the optimal ball-packing is determined where the centres of balls form an orbit (with...
The shape of a frustum is a bivariate function of aspect ratio (w) and base radii ratio (c). To inve...
PURPOSE: To investigate the influence of various technical factors on the variation of cone packing ...
<p>Preferred packing arrangement of cones (average ± SD, %) calculated using Voronoi tiles at 1.5 de...
<p>Average Cone Density, Spacing, and Voronoi (Mean ± SD) at 500-μm Eccentricity.</p
<p>Voronoi (6 tiles) Comparisons at 500-μm Eccentricity<sup><a href="http://www.plosone.org/article/...
<p>Cone density values calculated in each sampling area at 1.5 degree temporal and superior eccentri...
<p>Photoreceptor mosaic images acquired at 1.50 degree superior location and corresponding Voronoi d...
<p>(A) A cone mosaic image 0.5 mm from the center of the fovea in a normal eye. (B) Cone labeling re...
<p>AO retinal images from case W10_S14 (from fig. 2). We revealed the effect of manual re-selection ...
To investigate the influence of various technical factors on the variation of cone packing density e...
<p>Photoreceptor mosaic images acquired at 1.50 degree temporal eccentricity and corresponding Voron...
<p>(Top) Variation of measured S cone proportion with retinal eccentricity in human <a href="http://...
<p>Cone Spacing Comparisons at 500-μm Eccentricity<sup><a href="http://www.plosone.org/article/info:...
<p>Information per cone as a function of L cone fraction is shown for various scaling exponents, chr...
In this paper the optimal ball-packing is determined where the centres of balls form an orbit (with...
The shape of a frustum is a bivariate function of aspect ratio (w) and base radii ratio (c). To inve...
PURPOSE: To investigate the influence of various technical factors on the variation of cone packing ...
<p>Preferred packing arrangement of cones (average ± SD, %) calculated using Voronoi tiles at 1.5 de...
<p>Average Cone Density, Spacing, and Voronoi (Mean ± SD) at 500-μm Eccentricity.</p
<p>Voronoi (6 tiles) Comparisons at 500-μm Eccentricity<sup><a href="http://www.plosone.org/article/...
<p>Cone density values calculated in each sampling area at 1.5 degree temporal and superior eccentri...
<p>Photoreceptor mosaic images acquired at 1.50 degree superior location and corresponding Voronoi d...
<p>(A) A cone mosaic image 0.5 mm from the center of the fovea in a normal eye. (B) Cone labeling re...
<p>AO retinal images from case W10_S14 (from fig. 2). We revealed the effect of manual re-selection ...
To investigate the influence of various technical factors on the variation of cone packing density e...
<p>Photoreceptor mosaic images acquired at 1.50 degree temporal eccentricity and corresponding Voron...
<p>(Top) Variation of measured S cone proportion with retinal eccentricity in human <a href="http://...
<p>Cone Spacing Comparisons at 500-μm Eccentricity<sup><a href="http://www.plosone.org/article/info:...
<p>Information per cone as a function of L cone fraction is shown for various scaling exponents, chr...
In this paper the optimal ball-packing is determined where the centres of balls form an orbit (with...
The shape of a frustum is a bivariate function of aspect ratio (w) and base radii ratio (c). To inve...
PURPOSE: To investigate the influence of various technical factors on the variation of cone packing ...
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