December 2023
Volume 23, Issue 15
Open Access
Optica Fall Vision Meeting Abstract  |   December 2023
Poster Session I: Vernier thresholds of a Poisson-noise-limited computational observer with and without fixational eye movements
Author Affiliations
  • Mengxin Wang
    Department of Experimental Psychology, University of Oxford
  • Allie C. Hexley
    Department of Experimental Psychology, University of Oxford
  • Alexander J. H. Houston
    School of Mathematics, University of Leeds
  • Jiahe Cui
    Department of Engineering Science, University of Oxford
  • Daniel Read
    School of Mathematics, University of Leeds
  • Hannah E. Smithson
    Department of Experimental Psychology, University of Oxford
  • David H. Brainard
    Department of Psychology, University of Pennsylvania
Journal of Vision December 2023, Vol.23, 42. doi:https://doi.org/10.1167/jov.23.15.42
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      Mengxin Wang, Allie C. Hexley, Alexander J. H. Houston, Jiahe Cui, Daniel Read, Hannah E. Smithson, David H. Brainard; Poster Session I: Vernier thresholds of a Poisson-noise-limited computational observer with and without fixational eye movements. Journal of Vision 2023;23(15):42. https://doi.org/10.1167/jov.23.15.42.

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      © ARVO (1962-2015); The Authors (2016-present)

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Abstract

Vernier acuity is a fundamental measure of spatial vision. We modeled how stimulus encoding by the cones limits Vernier acuity. We determined Vernier thresholds for a computational observer that had access to the Poisson-distributed cone photopigment excitations. The observer also had access to the cone mosaic layout and the stimulus possibilities on each trial. We varied stimulus contrast (100%, 50%, 22%, 11% Michelson contrast) and duration (2, 4, 9, 18 stimulus frames; frame duration 8.33 ms) while fixing other stimulus properties (foveal viewing; two achromatic vertical bars; length 6.2 arcmin; width 1 arcmin; vertical gap 0.1 arcmin). When the retinal image is stationary, Vernier thresholds depend jointly on contrast and duration through contrast energy: squared contrast times duration. Introducing fixational drift eye movements impairs performance, when the information about eye path is not accounted for by the computational observer. When the path of fixational drift is made available and used ideally, there is no noticeable difference with the stationary case. The lack of improvement when the path of fixational drift is known exactly may reflect the high-density of foveal cones relative to the optical point spread function and the fact that we did not introduce temporal filtering by the visual system. Our results suggest the possibility of a rich interaction between optics, cone sampling, fixational eye movements, post-receptoral filtering and visual performance.

Footnotes
 Funding: Funding: This work was supported by the Engineering and Physical Sciences Research Council [grant number EP/W023873/1].
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