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Literature DB >> 8917796

Centroid analysis predicts visual localization of first- and second-order stimuli.

D Whitaker¹, P V McGraw, I Pacey, B T Barrett.

Abstract

Perceived alignment of asymmetric Gaussian-windowed stimuli was measured in an attempt to differentiate between stimulus characteristics which might underlie visual localization. These asymmetric stimuli have the advantage of being continuous in the spatial domain and of possessing well-defined spatial characteristics in which centroid, points of inflexion and peak can be separated from each other. Results for both luminance- and contrast-defined stimuli are reasonably well described on the basis that the centroid of the stimulus envelope represents the primitive which determines perceived visual location. Centroid location is inherent in the output of filters which are large enough to cover the object of interest.

Mesh：

Year: 1996 PMID： 8917796 DOI： 10.1016/0042-6989(96)00031-4

Source DB: PubMed Journal: Vision Res ISSN： 0042-6989 Impact factor: 1.886

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Cited

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Centroid analysis predicts visual localization of first- and second-order stimuli.

1. Eye-hand coordination while pointing rapidly under risk.

2. Spatially asymmetric response to moving patterns in the visual cortex: re-examining the local sign hypothesis.

3. Transverse chromatic offsets with pupil displacements in the human eye: sources of variability and methods for real-time correction.

4. Quantitative study of asymmetry in the manifestation of the wings-in and wings-out versions of the Müller-Lyer illusion.

5. The emergence of perceived position in the visual system.

6. Relating spatial and temporal orientation pooling to population decoding solutions in human vision.

7. The development of perceptual averaging: learning what to do, not just how to do it.

8. The Object Orientation Effect in Exocentric Distances.

9. Negative BOLD fMRI response in the visual cortex carries precise stimulus-specific information.