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We explored how fixational eye movements (FEMs) affect threshold temporal summation of increment pulses using realistic simulations of early visual processing. Using the Image Systems Engineering Toolbox for Biology, we assessed performance in a spatial 2AFC increment detection task, where the observer identified whether a stimulus appeared on the left or right. The signal-known-exactly ideal observer was trained on the noise-free photocurrent output of the cone mosaic for both stimulus alternatives, with performance calculated using noisy instances of photocurrents, given FEMs knowledge. The stimuli, modelled as 0.24x2.2 arcmin increments of 543 nm light presented via an AOSLO, included both a single 2 ms flash and pairs of flashes separated by interstimulus intervals (ISI) of 17 ms, 33 ms, 100 ms, or 300 ms. Detection thresholds, defined as the stimulus contrast corresponding to 75% correct, were assessed with and without FEMs. Without FEMs, thresholds for detecting two flashes separated by 17-100 ms slightly increased with ISI but remained lower than those for a single flash. With FEMs, the modelled differences between single- and two-flash thresholds were less pronounced, suggesting that, at the level of photocurrent signals, FEMs reduce the benefits of temporal summation for detection. Future work will quantify this reduction by simulating FEMs with varying velocities and explore if adding a temporal adaptation stage improves effect of FEMs' on performance.

Original publication

DOI

10.1167/jov.25.5.24

Type

Journal article

Journal

J Vis

Publication Date

01/04/2025

Volume

25

Keywords

Humans, Photic Stimulation, Sensory Thresholds, Fixation, Ocular, Computer Simulation, Eye Movements, Contrast Sensitivity, Retinal Cone Photoreceptor Cells, Visual Perception