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Trichromatic theory can explain foveal measurements.

Published byΒηθεσδά Τρικούπης Modified over 5 years ago

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Presentation on theme: "Trichromatic theory can explain foveal measurements."— Presentation transcript:

1 Trichromatic theory can explain foveal measurements.
Trichromatic theory can explain foveal measurements. A three-mechanism model (Fig. 2) must have an invisible direction in a four-primary display. (A) Spectral power distributions of the invisible stimuli at the fovea according to the model fits. The spectral patterns are similar for two subjects (S1, black outline; S2, gray). The shaded areas show the 80% confidence interval based on a bootstrap procedure: We fitted the model 1,000 times, each fit omitting 10% of the data selected at random. (B) Responses to the foveal stimulus in the invisible direction at 10% modulations are shown in LMS space for S1 according to two models of LMS spectral sensitivity: the standard color observer (gray) and models fit to the individual to account for pigment density in the lens, macula, and cone outer segments (black outline; see Fig. S2 for details). Assuming the standard color observer, the cloud of bootstrapped LMS responses is far from the origin, indicating that (according to this model) a 10% modulation of the invisible stimuli evokes about a 2% response in each of the L-, M-, and S-cones. However, after correction for the individual cone pigment densities, the LMS responses to the invisible stimuli for S1 lie near the origin, indicating that the invisible light is also the cone-silent light, as predicted by trichromatic theory. Histograms on the cone axes show the distribution of cone responses to the invisible stimuli according to the standard observer model (gray) or the individual observer (black outline). (C) Distribution of bootstrapped LMS responses to the invisible foveal stimuli in two subjects. Histograms show distances from the origin in 3D LMS space. In both S1 and S2, LMS responses are far from the origin when fitted using the standard observer’s pigment densities (median of S1 and S2 LMS responses: 4.5% and 3.3%, respectively). After pigment density correction, the invisible stimuli are also the cone-silent stimuli. (D) Threshold ellipses after pigment density correction. The cone-silent direction is invisible for both subjects, indicated by the holes in the Z-direction. Threshold ellipses in the six panels are similar for the two subjects. Hiroshi Horiguchi et al. PNAS 2013;110:3:E260-E269 ©2013 by National Academy of Sciences

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