Distinct detection and discrimination sensitivities in visual processing of real versus unreal optic flow
- PMID: 39810018
- DOI: 10.3758/s13423-024-02616-y
Distinct detection and discrimination sensitivities in visual processing of real versus unreal optic flow
Abstract
We examined the intricate mechanisms underlying visual processing of complex motion stimuli by measuring the detection sensitivity to contraction and expansion patterns and the discrimination sensitivity to the location of the center of motion (CoM) in various real and unreal optic flow stimuli. We conducted two experiments (N = 20 each) and compared responses to both "real" optic flow stimuli containing information about self-movement in a three-dimensional scene and "unreal" optic flow stimuli lacking such information. We found that detection sensitivity to contraction surpassed that to expansion patterns for unreal optic flow stimuli, whereas this trend was reversed for real optic flow stimuli. Furthermore, while discrimination sensitivity to the CoM location was not affected by stimulus duration for unreal optic flow stimuli, it showed a significant improvement when stimulus duration increased from 100 to 400 ms for real optic flow stimuli. These findings provide compelling evidence that the visual system employs distinct processing approaches for real versus unreal optic flow even when they are perfectly matched for two-dimensional global features and local motion signals. These differences reveal influences of self-movement in natural environments, enabling the visual system to uniquely process stimuli with significant survival implications.
Keywords: Contraction; Expansion; FoE; Heading; Motion; Optic flow; Self-movement.
© 2025. The Psychonomic Society, Inc.
Conflict of interest statement
Declarations. Conflicts of interest: The authors declared that there were no conflicts of interest with respect to the authorship or the publication of this article. Ethics approval: This research complies with the Declaration of Helsinki (2023), aside from the requirement to preregister human subjects research, and received approval from the Institutional Review Board at New York University Shanghai (ID: 0062016). Consent to participate: We obtained written informed consent from all participants before the commencement of each experiment in this study. The consent form was approved by the Institutional Review Board at New York University Shanghai. Consent for publication: All authors have read and approved the final manuscript and consent to its publication.
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Grants and funding
- 20ZR1439500/Science and Technology Commission of Shanghai Municipality
- 19JC1410101/Science and Technology Commission of Shanghai Municipality
- 32071041/National Natural Science Foundation of China
- 32161133009/National Natural Science Foundation of China
- The major grant seed fund/NYU-ECNU Institute of Brain and Cognitive Science, New York University Shanghai
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