Binocular summation of second-order global motion signals in human vision.

Although many studies have examined the principles governing first-order global motion perception, the mechanisms that mediate second-order global motion perception remain unresolved. This study investigated the existence, nature and extent of the binocular advantage for encoding second-order (contrast-defined) global motion. Motion coherence thresholds (79.4% correct) were assessed for determining the direction of radial, rotational and translational second-order motion trajectories as a function of local element modulation depth (contrast) under monocular and binocular viewing conditions. We found a binocular advantage for second-order global motion processing for all motion types. This advantage was mainly one of enhanced modulation sensitivity, rather than of motion-integration. However, compared to findings for first-order motion where the binocular advantage was in the region of a factor of around 1.7 (Hess et al., 2007), the binocular advantage for second-order global motion was marginal, being in the region of around 1.2. This weak enhancement in sensitivity with binocular viewing is considerably less than would be predicted by conventional models of either probability summation or neural summation.

Visual discrimination in noise: behavioural correlates of age-related cortical decline.

Neurophysiological evidence has consistently shown that, compared to younger animals, single neurons in aged mammalian visual cortex exhibit reduced selectivity to stimulus direction and orientation. It has been suggested that this may be due, in part, to increased internal noise in the aged visual system. This study measured contrast thresholds for judging the motion direction (left vs. right) and spatial orientation (vertical vs. horizontal) of sinusoidal gratings presented alone and with additive noise in young (20-29 years) and older (65-79 years) adults. Compared to their young counterparts, older adults demonstrated reduced sensitivity to direction and orientation when no noise was present. However, when gratings were presented in conjunction with additive noise, older adults required a greater increase in external noise to elicit a corresponding reduction in sensitivity. Subsequent analysis assessing equivalent noise and sampling efficiency attributed performance differences to an increase in equivalent noise with age.