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Assessing Binocular Central Visual Field and Binocular Eye Movements in a Dichoptic Viewing Condition
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Fixational eye movements enable robust edge detection.

Lynn Schmittwilken1,2, Marianne Maertens1,3

  • 1Science of Intelligence and Computational Psychology, Faculty of Electrical Engineering and Computer Science, Technische Universität Berlin, Berlin, Germany.

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|July 14, 2022
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Summary
This summary is machine-generated.

This study introduces a novel spatiotemporal model for human edge detection, incorporating eye movements. The model successfully replicates visual illusions and robustly detects edges in noisy images without orientation-selective processes.

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Area of Science:

  • Computational Neuroscience
  • Computer Vision
  • Human Vision Research

Background:

  • Human vision processes luminance edges using spatial mechanisms across multiple scales.
  • Existing models typically assume static inputs and ignore temporal modulations from fixational eye movements.
  • Recent findings highlight the functional importance of temporal input modulations caused by eye movements.

Purpose of the Study:

  • To propose a spatiotemporal model of human edge detection integrating spatial and active vision principles.
  • To investigate the role of temporal filtering and active sampling via fixational eye movements in edge detection.
  • To challenge the necessity of orientation-selective mechanisms in edge detection.

Main Methods:

  • Developed a spatiotemporal model augmenting a spatial vision model with temporal filtering and image shifting.
  • Tested the model on White's illusion by superimposing narrowband noise.
  • Evaluated edge detection performance in natural images with and without Gaussian white noise, comparing with human-labeled contours.

Main Results:

  • The model accurately reproduced the spatial-frequency-specific interference observed in White's illusion.
  • Demonstrated robust edge detection against noise in natural images, independent of orientation-selective processes.
  • Confirmed the importance of multiscale spatiotemporal filtering and scale-specific normalization through component elimination.

Conclusions:

  • The proposed spatiotemporal model offers efficient edge detection for artificial vision systems.
  • Fixational eye movements and spatiotemporal filtering are crucial for robust edge detection.
  • Orientation-selective mechanisms are not strictly required for effective edge detection.