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Literature DB >> 2302430

Visual perception of surface curvature. The spin variation and its physiological implications.

Abstract

In the context of the models of structure from motion visual processing, we propose that the optic-flow field is a source of information for the perception of the curvature of a smooth surface in motion. In particular, it is shown how the spin variation (SV), a second spatial derivative of the retinal velocity field, is mathematically related to the curvature of the surface. Under the hypothesis that the visual system relies on SV to analyse the structure of a moving surface, a neural scheme for SV detection is proposed and psychophysical predictions are developed. Results obtained on artificial images show that the SV scheme presents a rather weak sensitivity to noise in conditions of low image velocity.

Entities: Gene

Mesh：

Year: 1990 PMID： 2302430 DOI： 10.1007/bf00198096

Source DB: PubMed Journal: Biol Cybern ISSN： 0340-1200 Impact factor: 2.086

36 in total

6. Neurons in area 18 of cat visual cortex selectively sensitive to changing size: nonlinear interactions between responses to two edges.

Authors: D Regan; M Cynader
Journal: Vision Res Date: 1979 Impact factor: 1.886

7. The effect of two-dimensional and three-dimensional distance on apparent motion.

Authors: K Mutch; I M Smith; A Yonas
Journal: Perception Date: 1983 Impact factor: 1.490

8. Neural mechanisms of space vision in the parietal association cortex of the monkey.

Authors: H Sakata; H Shibutani; K Kawano; T L Harrington
Journal: Vision Res Date: 1985 Impact factor: 1.886

9. Direction- and velocity-specific responses from beyond the classical receptive field in the middle temporal visual area (MT).

Authors: J Allman; F Miezin; E McGuinness
Journal: Perception Date: 1985 Impact factor: 1.490

Visual perception of surface curvature. The spin variation and its physiological implications.

1. Selective sensitivity to direction of movement in ganglion cells of the rabbit retina.

2. Optical velocity patterns, velocity-sensitive neurons, and space perception: a hypothesis.

3. Receptive fields and functional architecture of monkey striate cortex.

4. Integration of direction signals of image motion in the superior temporal sulcus of the macaque monkey.

5. Processing differential image motion.

6. Neurons in area 18 of cat visual cortex selectively sensitive to changing size: nonlinear interactions between responses to two edges.

7. The effect of two-dimensional and three-dimensional distance on apparent motion.

8. Neural mechanisms of space vision in the parietal association cortex of the monkey.

9. Direction- and velocity-specific responses from beyond the classical receptive field in the middle temporal visual area (MT).

10. Differential motion hyperacuity under conditions of common image motion.

1. The detection of surface curvatures defined by optical motion.

2. The perception of 3-D structure from contradictory optical patterns.

3. Stereo-motion cooperation and the use of motion disparity in the visual perception of 3-D structure.

4. Discrimination of 3-D shape and 3-D curvature from motion in active vision.

5. The dynamics of the visual system in combining conflicting KDE and binocular stereopsis cues.

6. Parallel Adaptation to Spatially Distinct Distortions.