<p>In addition, the top left hand corner of the figure presents regression equations and R<sup>2</sup> for each experimental condition.</p
<p>(<b>A</b>) Performance of the subjects (black line) and of the model without the memory and downs...
The height of each bar represents the group-mean movement amplitude based on an across-participant a...
<p>Plotted is the difference in movement time (ms) in trials with a distractor present minus movemen...
<p>In addition, regression equations and R<sup>2</sup> values for each dependent variable are depict...
The height of each bar represents the group-mean movement time based on an across-participant averag...
Fitts’ law predicts the human movement response time for a specific task through a simple linear for...
<p>(A) Movement time; (B) deceleration time; and (C) acceleration time. Each dot represents mean val...
<p>(A) movement time; (B) deceleration time; and (C) acceleration time. Each dot represents mean val...
<p>Capture times by treatment in experiment 2 across all slides (left, bars show quartile ranges), a...
<p>Drift rates of the DDM were obtained for the SN weight classes of each stimulus category, and ima...
<p>a) 2-D histogram (in log scale) of RT of moves as a function of the seconds of game played. Lines...
<p>Capture times by treatment in experiment 3 across all slides (left, bars show quartile ranges), a...
A strong linear relationship (R2>0.98) was found between the movement time and index of difficulty.<...
<p>(a) Reaction times grouped by trial difficulty and type. (b) Each subject's mean reaction times a...
<p>Linear regression fittings for reaction time (RT) and movement time (MT) as a function of the ang...
<p>(<b>A</b>) Performance of the subjects (black line) and of the model without the memory and downs...
The height of each bar represents the group-mean movement amplitude based on an across-participant a...
<p>Plotted is the difference in movement time (ms) in trials with a distractor present minus movemen...
<p>In addition, regression equations and R<sup>2</sup> values for each dependent variable are depict...
The height of each bar represents the group-mean movement time based on an across-participant averag...
Fitts’ law predicts the human movement response time for a specific task through a simple linear for...
<p>(A) Movement time; (B) deceleration time; and (C) acceleration time. Each dot represents mean val...
<p>(A) movement time; (B) deceleration time; and (C) acceleration time. Each dot represents mean val...
<p>Capture times by treatment in experiment 2 across all slides (left, bars show quartile ranges), a...
<p>Drift rates of the DDM were obtained for the SN weight classes of each stimulus category, and ima...
<p>a) 2-D histogram (in log scale) of RT of moves as a function of the seconds of game played. Lines...
<p>Capture times by treatment in experiment 3 across all slides (left, bars show quartile ranges), a...
A strong linear relationship (R2>0.98) was found between the movement time and index of difficulty.<...
<p>(a) Reaction times grouped by trial difficulty and type. (b) Each subject's mean reaction times a...
<p>Linear regression fittings for reaction time (RT) and movement time (MT) as a function of the ang...
<p>(<b>A</b>) Performance of the subjects (black line) and of the model without the memory and downs...
The height of each bar represents the group-mean movement amplitude based on an across-participant a...
<p>Plotted is the difference in movement time (ms) in trials with a distractor present minus movemen...
DOI
Add to ORKG