<p>(A) Bar plots represent performance during right-to-left and left-to-right motion as a function of target locations in the left visual field (LVF) and right visual field (RVF). (B) shows the same as (A) but split between the two levels of temporal cueing (i.e. rhythmic versus arrhythmic cueing). Note that the 2-way interaction of Spatial Trajectory Cueing x Target Location [illustrated in (A)] was statistically independent of temporal trajectory cueing, i.e. there was no significant 3-way interaction [illustrated in (B)], as for accuracy (see <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0144082#pone.0144082.g003" target="_blank">Fig 3</a>). (C) Separate bar plots for rhythmic (blue) and arrhythmic (blue) cueing, ...
<p>Spatial topographies of (<b>A</b>) RC1 and (<b>B</b>) RC2 exhibit poles over medial parietal and ...
<p>Reaction time for directional and non-directional cue conditions under active vs. sham stimulatio...
<p>Mean reaction times (± SEM) for all subjects, in the absence of TMS, for each type of cues (BL: b...
<p>(A) Bar plots represent performance during right-to-left and left-to-right motion as a function o...
<p>(A) Discrimination accuracy and (B) reaction time. The bar plots represent performance in respons...
Recently it has been discovered that visuospatial attention operates rhythmically, rather than being...
AbstractReaction time in a detection or a location discrimination task was longer when a target appe...
<p>Mean Reaction Time (in ms) as a function of display type, cueing, SOA, and spatial Stroop in Expe...
<p>Data are shown for Experiment 1 (a), Experiment 2 (b), Experiment 3 (c) and Experiment 4 (d).</p
<p><i>(</i><b><i>a</i></b><i>)</i> Main effect of temporal <i>rhythms</i> and <i>symbolic</i> cues <...
<p>Mean Reaction Time (in ms) as a function of display type, cueing, SOA, and spatial Stroop in Expe...
<p>Reaction time for directional and non-directional cue conditions under active vs. sham stimulatio...
In daily life, temporal expectations may derive from incidental learning of recurring patterns of in...
Simple reaction time (SRT) in response to visual stimuli can be influenced by many stimulus features...
It is known that reaction time (RT) for the detection of a light target at extrafoveal locations is ...
<p>Spatial topographies of (<b>A</b>) RC1 and (<b>B</b>) RC2 exhibit poles over medial parietal and ...
<p>Reaction time for directional and non-directional cue conditions under active vs. sham stimulatio...
<p>Mean reaction times (± SEM) for all subjects, in the absence of TMS, for each type of cues (BL: b...
<p>(A) Bar plots represent performance during right-to-left and left-to-right motion as a function o...
<p>(A) Discrimination accuracy and (B) reaction time. The bar plots represent performance in respons...
Recently it has been discovered that visuospatial attention operates rhythmically, rather than being...
AbstractReaction time in a detection or a location discrimination task was longer when a target appe...
<p>Mean Reaction Time (in ms) as a function of display type, cueing, SOA, and spatial Stroop in Expe...
<p>Data are shown for Experiment 1 (a), Experiment 2 (b), Experiment 3 (c) and Experiment 4 (d).</p
<p><i>(</i><b><i>a</i></b><i>)</i> Main effect of temporal <i>rhythms</i> and <i>symbolic</i> cues <...
<p>Mean Reaction Time (in ms) as a function of display type, cueing, SOA, and spatial Stroop in Expe...
<p>Reaction time for directional and non-directional cue conditions under active vs. sham stimulatio...
In daily life, temporal expectations may derive from incidental learning of recurring patterns of in...
Simple reaction time (SRT) in response to visual stimuli can be influenced by many stimulus features...
It is known that reaction time (RT) for the detection of a light target at extrafoveal locations is ...
<p>Spatial topographies of (<b>A</b>) RC1 and (<b>B</b>) RC2 exhibit poles over medial parietal and ...
<p>Reaction time for directional and non-directional cue conditions under active vs. sham stimulatio...
<p>Mean reaction times (± SEM) for all subjects, in the absence of TMS, for each type of cues (BL: b...