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Literature DB >> 6106198

The interpretation of a moving retinal image.

Abstract

It is shown that from a monocular view of a rigid, textured, curved surface it is possible, in principle, to determine the gradient of the surface at any point, and the motion of the eye relative to it, from the velocity field of the changing retinal image, and its first and second spatial derivatives. The relevant equations are redundant, thus providing a test of the rigidity assumption. They involve, among other observable quantities, the components of shear of the retinal velocity field, suggesting that the visual system may possess specialized channels for computing these components.

Entities: Disease

Mesh：

Year: 1980 PMID： 6106198 DOI： 10.1098/rspb.1980.0057

Source DB: PubMed Journal: Proc R Soc Lond B Biol Sci ISSN： 0950-1193

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Cited

111 in total

Review 1. A theory of geometric constraints on neural activity for natural three-dimensional movement.

Authors: K Zhang; T J Sejnowski
Journal: J Neurosci Date: 1999-04-15 Impact factor: 6.167

2. Integration time for the perception of depth from motion parallax.

Authors: Mark Nawrot; Keith Stroyan
Journal: Vision Res Date: 2012-03-01 Impact factor: 1.886

3. Saccadic head and thorax movements in freely walking blowflies.

Authors: G Blaj; J H van Hateren
Journal: J Comp Physiol A Neuroethol Sens Neural Behav Physiol Date: 2004-07-20 Impact factor: 1.836

4. Translational head movements of pigeons in response to a rotating pattern: characteristics and tool to analyse mechanisms underlying detection of rotational and translational optical flow.

Authors: H O Nalbach
Journal: Exp Brain Res Date: 1992 Impact factor: 1.972

The interpretation of a moving retinal image.

Review 1. A theory of geometric constraints on neural activity for natural three-dimensional movement.

2. Integration time for the perception of depth from motion parallax.

3. Saccadic head and thorax movements in freely walking blowflies.

4. Translational head movements of pigeons in response to a rotating pattern: characteristics and tool to analyse mechanisms underlying detection of rotational and translational optical flow.

5. The spatial and temporal characteristics of perceiving 3-D structure from motion.

6. Approaching objects cause confusion in patients with Alzheimer's disease regarding their direction of self-movement.

7. Receptive field dynamics underlying MST neuronal optic flow selectivity.

8. Visual processing of rotary motion.

9. Integration mechanisms for heading perception.

10. Dynamics of optomotor responses in Drosophila to perturbations in optic flow.