4.6 Article

Looking at the Ebbinghaus illusion: differences in neurocomputational requirements, not gaze-mediated attention, explain a classic perception-action dissociation

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ROYAL SOC
DOI: 10.1098/rstb.2021.0459

Keywords

visual illusions; visual perception; grasping; eye movements; gaze; two visual systems hypothesis

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Perceiving and grasping an object present different computational problems for animals. Primates have developed separate neural networks specialized in visual processing with different object representations to solve this problem. The Ebbinghaus illusion minimally affects the grasping hand's aperture, which normally scales with target size, suggesting that grasps are refractory to the illusion due to fixation on the target rather than the surrounding context. However, our study found that both limb and gaze tracking failed to explain this dissociation, supporting the idea that object perception and goal-directed action rely on distinct visual representations.
Perceiving and grasping an object present an animal with different sets of computational problems. The solution in primates entails the specialization of separate neural networks for visual processing with different object representations. This explains why the Ebbinghaus illusion minimally affects the grasping hand's in-flight aperture, which normally scales with target size, even though the size of the target disc remains misperceived. An attractive alternative account, however, posits that grasps are refractory to the illusion because participants fixate on the target and fail to attend to the surrounding context. To test this account, we tracked both limb and gaze while participants made forced-choice judgments of relative disc size in the Ebbinghaus illusion or did so in combination with grasping or manually estimating the size of one of the discs. We replicated the classic dissociation: grasp aperture was refractory to the measured illusory effect on perceived size, while judgments and manual estimates of disc size were not. Importantly, the number of display-wide saccades per second and the percentage of total fixation time or fixations directed at the selected disc failed to explain the dissociation. Our findings support the contention that object perception and goal-directed action rely on distinct visual representations.This article is part of a discussion meeting issue 'New approaches to 3D vision'.

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