In three experiments, we examined distractor inhibition in parallel ("pop-out") visual search. Distractor inhibition was measured in terms of reaction time (RT) to a simple luminance increment probe presented, after the search task response, at display locations that either contained a search distractor (on-probe) or were blank (off-probe). When the search stimuli remained in view, the on-probe (relative to off-probe) RT cost was larger than in a baseline condition in which observers had only to passively view, rather than search, the display. This differential on-probe RT cost, which discounts effects of masking, was interpreted as a measure of distractor inhibition associated with target selection in parallel visual search. Taken together...
Human vision relies on massive parallel processes to make sense of visual information in the world. ...
The visual marking mechanism (Watson & Humphreys, 1997) allows new objects to be prioritized by appl...
AbstractThe attentional mechanisms in the brain responsible for fast pop-out search and slower diffi...
The relatively common experimental visual search task of finding a red X amongst red O's and green X...
In two experiments, we examined whether one source of cross-dimensional interference in visual searc...
The aim of the present study was to investigate whether costs invoked by the presence of an irreleva...
In four experiments, we examined selection processes in visual search using a probe detection task t...
In four experiments, we examined selection processes in visual search using a probe detection task t...
Olds, Cowan and Jolicoeur (2000) showed that although the mechanisms underlying visual search have t...
The authors used visual search tasks in which components of the classic flanker task (B. A. Eriksen ...
Previous research suggests that the allocation of attention is largely controlled either in a stimul...
AbstractFour experiments investigated after-effects of attentional capture by a target-feature singl...
The assumption of serial attentive processing during visual search (Treisman & Sato,1990; Wolfe,1994...
The relatively common experimental visual search task of finding a red X amongst red O's and green X...
Five experiments are presented, providing empirical support of the hypothesis that the sensory pheno...
Human vision relies on massive parallel processes to make sense of visual information in the world. ...
The visual marking mechanism (Watson & Humphreys, 1997) allows new objects to be prioritized by appl...
AbstractThe attentional mechanisms in the brain responsible for fast pop-out search and slower diffi...
The relatively common experimental visual search task of finding a red X amongst red O's and green X...
In two experiments, we examined whether one source of cross-dimensional interference in visual searc...
The aim of the present study was to investigate whether costs invoked by the presence of an irreleva...
In four experiments, we examined selection processes in visual search using a probe detection task t...
In four experiments, we examined selection processes in visual search using a probe detection task t...
Olds, Cowan and Jolicoeur (2000) showed that although the mechanisms underlying visual search have t...
The authors used visual search tasks in which components of the classic flanker task (B. A. Eriksen ...
Previous research suggests that the allocation of attention is largely controlled either in a stimul...
AbstractFour experiments investigated after-effects of attentional capture by a target-feature singl...
The assumption of serial attentive processing during visual search (Treisman & Sato,1990; Wolfe,1994...
The relatively common experimental visual search task of finding a red X amongst red O's and green X...
Five experiments are presented, providing empirical support of the hypothesis that the sensory pheno...
Human vision relies on massive parallel processes to make sense of visual information in the world. ...
The visual marking mechanism (Watson & Humphreys, 1997) allows new objects to be prioritized by appl...
AbstractThe attentional mechanisms in the brain responsible for fast pop-out search and slower diffi...