<p>Example congruent (left) and incongruent (right) trial types for each taskset are depicted with corresponding timing of trial events. The response mapping and taskset sequence for Stay and Switch block types is also included at bottom.</p
<p>A. O-NMTG task. Each black rectangle represents the video screen. The white circle represents the...
<p>Schematic diagram of the temporal arrangement used in the two different paradigms (gap and simult...
Performing two randomly alternating tasks typically results in higher reaction times (RTs) following...
<p>Figure 1. shows an example of the task-switching paradigm performed in Experiment 1.</p
<p>A) Timeline of a specific trial. Response-cue interval (RCI) and cue-target interval are fixed at...
<p>Four switch types (no-change, color-switch, shape-switch, and location-switch) and response mappi...
In the schematic overview each computer screen is represented by a rectangle. The stop-change task c...
<p>Schematic of the trial events for middle and lateral (left, right) stimulus positions.</p
<p>Each trial started with a next trial message on the center of the screen. Cognitive task: In this...
<p>Four change types in the two-feature memory condition (no-change, color-change, shape-change, and...
<p>Example of a trial sequence in stop signal task (b) that parallels that in the Stroop task (a). I...
<p>Trial events occurring during the spatial (A) and numerical (B) versions of the task-switching ta...
<p>Schematic representation of the task A. Representation of ISI differences between FC and SC. B.- ...
<p>(A) Each trial consisted of 4 repetitions (S1 – S4) of an observation interval (6 s) and subseque...
<p>Details about timing for stimulus and inter trial interval (ITI) are included.</p
<p>A. O-NMTG task. Each black rectangle represents the video screen. The white circle represents the...
<p>Schematic diagram of the temporal arrangement used in the two different paradigms (gap and simult...
Performing two randomly alternating tasks typically results in higher reaction times (RTs) following...
<p>Figure 1. shows an example of the task-switching paradigm performed in Experiment 1.</p
<p>A) Timeline of a specific trial. Response-cue interval (RCI) and cue-target interval are fixed at...
<p>Four switch types (no-change, color-switch, shape-switch, and location-switch) and response mappi...
In the schematic overview each computer screen is represented by a rectangle. The stop-change task c...
<p>Schematic of the trial events for middle and lateral (left, right) stimulus positions.</p
<p>Each trial started with a next trial message on the center of the screen. Cognitive task: In this...
<p>Four change types in the two-feature memory condition (no-change, color-change, shape-change, and...
<p>Example of a trial sequence in stop signal task (b) that parallels that in the Stroop task (a). I...
<p>Trial events occurring during the spatial (A) and numerical (B) versions of the task-switching ta...
<p>Schematic representation of the task A. Representation of ISI differences between FC and SC. B.- ...
<p>(A) Each trial consisted of 4 repetitions (S1 – S4) of an observation interval (6 s) and subseque...
<p>Details about timing for stimulus and inter trial interval (ITI) are included.</p
<p>A. O-NMTG task. Each black rectangle represents the video screen. The white circle represents the...
<p>Schematic diagram of the temporal arrangement used in the two different paradigms (gap and simult...
Performing two randomly alternating tasks typically results in higher reaction times (RTs) following...
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