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Literature DB >> 6661443

Peripheral vision and perceived visual direction.

Abstract

Experiments are described in which the subjects had to localize brief light stimuli presented up to 10 degrees from the fixation center. The localization was performed relative to a continuously illuminated scale with numbered or lettered divisions. Systematic errors were obtained, the stimuli being mislocated nearer the fixation point than they were actually presented. The angular size of errors increased with the increase of stimulus eccentricity. It appeared to be a characteristic of the stimulated retinal locus, independent of the viewing distance and the scale element corresponding to this locus. It is concluded that despite the presence of a visible background frame of reference, subjects prefer to base their reports on the perceived egocentric direction of the stimulus which does not coincide with the physical direction of the stimulus. A parallel is drawn between this study and the studies on serial position function for letter identification.

Mesh：

Year: 1983 PMID： 6661443 DOI： 10.1007/bf00320391

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

13 in total

Peripheral vision and perceived visual direction.

1. Corrective saccades: dependence on retinal reafferent signals.

2. Processing order in visual perception.

3. Loss of spatial and identity information following a tachistoscopic exposure.

4. Corrective movements following refixation saccades: type and control system analysis.

5. [Investigations and considerations of directional perception during voluntary saccadic eye movements].

6. Effect of refraction on perceived locus of a target in the peripheral visual field.

7. Independence of radial localization from refractive error.

8. Processing spatial information and the selective-masking effect.

9. Saccadic eye movements and localization of visual stimuli.

10. Changes in the apparent lengths of lines as a function of degree of retinal eccentricity.

1. Representational momentum in spatial hearing does not depend on eye movements.

2. Transsaccadic integration of visual features in a line intersection task.

3. Location errors in partial-report bar-probe experiments: in search of the origin of cue-alignment problems.

4. Transcranial direct current stimulation over posterior parietal cortex modulates visuospatial localization.

5. Visual localization of briefly presented peripheral targets.

6. When here becomes there: attentional distribution modulates foveal bias in peripheral localization.

7. Weighted integration of visual position information.

8. Distance estimation is influenced by encoding conditions.

9. Visual memory capacity in transsaccadic integration.

10. Expansion of visual space during optokinetic afternystagmus (OKAN).