AbstractPerformance can often be made equal across the visual field by scaling peripherally presented stimuli according to F=1+E/E2 where E2 is the eccentricity at which stimulus size must double to maintain foveal performance levels. Previous studies suggest that E2 for orientation discrimination is in the range of 1.5°–2° when stimuli are presented at contrasts well above detection threshold. Recent psychophysical and physiological evidence suggests spatial reorganization of receptive fields at near-threshold contrasts. Such contrast-dependent changes in receptive field structure might alter the amount of size scaling necessary to equate task performance across the visual field. To examine this question we measured orientation discriminat...
AbstractPrevious work has shown that the ratio between the thresholds for detecting a spatial (verni...
Performance in visual tasks can often be equated across eccentricities by proper scaling. The scalin...
AbstractEccentricity-dependent sensitivity losses in spatial discrimination tasks can often be overc...
AbstractPerformance can often be made equal across the visual field by scaling peripherally presente...
Performance in many visual tasks depends on visual field location and generally declines with increa...
AbstractThe parameter E2 is used in many spatial scaling studies to characterize the rate at which s...
Ei indicates the eccentricity where stimulus size must double to maintain performance equivalent to ...
AbstractMotivated by the recent physiological finding that a neuron’s receptive field can increase i...
AbstractRecent physiological investigations have demonstrated that a neuron's area of spatial summat...
We compared the mechanisms responsible for orientation discrimination of stimuli defined by luminanc...
This thesis investigates various aspects of peripheral vision, which is known not to be as acute as ...
AbstractWe evaluated orientation discrimination thresholds using an external noise paradigm. Stimuli...
AbstractWe compared the mechanisms responsible for orientation discrimination of stimuli defined by ...
thresholds to stimulus contrast had similar shapes for luminance and isoluminant gratings, indicatin...
The observation that performance in many visual tasks can be made independent of eccentricity by inc...
AbstractPrevious work has shown that the ratio between the thresholds for detecting a spatial (verni...
Performance in visual tasks can often be equated across eccentricities by proper scaling. The scalin...
AbstractEccentricity-dependent sensitivity losses in spatial discrimination tasks can often be overc...
AbstractPerformance can often be made equal across the visual field by scaling peripherally presente...
Performance in many visual tasks depends on visual field location and generally declines with increa...
AbstractThe parameter E2 is used in many spatial scaling studies to characterize the rate at which s...
Ei indicates the eccentricity where stimulus size must double to maintain performance equivalent to ...
AbstractMotivated by the recent physiological finding that a neuron’s receptive field can increase i...
AbstractRecent physiological investigations have demonstrated that a neuron's area of spatial summat...
We compared the mechanisms responsible for orientation discrimination of stimuli defined by luminanc...
This thesis investigates various aspects of peripheral vision, which is known not to be as acute as ...
AbstractWe evaluated orientation discrimination thresholds using an external noise paradigm. Stimuli...
AbstractWe compared the mechanisms responsible for orientation discrimination of stimuli defined by ...
thresholds to stimulus contrast had similar shapes for luminance and isoluminant gratings, indicatin...
The observation that performance in many visual tasks can be made independent of eccentricity by inc...
AbstractPrevious work has shown that the ratio between the thresholds for detecting a spatial (verni...
Performance in visual tasks can often be equated across eccentricities by proper scaling. The scalin...
AbstractEccentricity-dependent sensitivity losses in spatial discrimination tasks can often be overc...