A: Group mean ± SE, ML endpoint position error across all trials for the control (blue) and prism (green) groups. B: Group mean ± SE, ML endpoint position error for the baseline (or control group equivalent) phase (mean of last 10 trials), first adaptation trial (or control group equivalent), late adaptation (or control group equivalent) phase (mean of last 10 trials), and first post-adaptation trial (or control group equivalent) for the control and prism groups. For the prism group, a positive value represents errors in the direction of the prism shift. Asterisk indicates that values are significantly different from other groups/phases based on post hoc tests (p < 0.05).</p
<p>These plots illustrate an asymmetry in baseline (blue) performance such that participants are mor...
<p>Dataset 4: For each participant, percentage accuracy was calculated within each of the four horiz...
This study investigated the motor control mechanisms that enable healthy individuals to adapt their...
<p>This plot shows the precision of (A) referenced visual localisation, (B) unreferenced visual loca...
<p>a: Group mean horizontal pointing errors as a function of target-relative gaze direction for IGD ...
<p>Mean pointing consistency scores (95% confidence intervals) for decision and non-decision-point o...
Group mean ± SE, % error (A), completion amount (B), and crossing points (C) across bins for the con...
The average aiming axes and angles are consistent with a representation of the partially learned per...
<p>Error bars show +/1 S.E.M. <b><i>Bottom Panel</i></b>: Mean difference in the percentage of direc...
<p>Three sessions were plotted for the patients, while only the average values were plotted for the ...
<p>Lower graph: Each participant's recognition errors following stimulation of Oz and pSTG. The line...
<p>Average alignment biases for each subject, segregated on the basis of pointer and position. Plots...
<p>Dataset 6: For each participant, percentage accuracy was calculated within each level of visual f...
<p>The meaningless condition was set as the baseline, and changes in accuracy (i.e., increase or dec...
a<p>For response turn and response leg, group means are expressed as a percentage of the correct res...
<p>These plots illustrate an asymmetry in baseline (blue) performance such that participants are mor...
<p>Dataset 4: For each participant, percentage accuracy was calculated within each of the four horiz...
This study investigated the motor control mechanisms that enable healthy individuals to adapt their...
<p>This plot shows the precision of (A) referenced visual localisation, (B) unreferenced visual loca...
<p>a: Group mean horizontal pointing errors as a function of target-relative gaze direction for IGD ...
<p>Mean pointing consistency scores (95% confidence intervals) for decision and non-decision-point o...
Group mean ± SE, % error (A), completion amount (B), and crossing points (C) across bins for the con...
The average aiming axes and angles are consistent with a representation of the partially learned per...
<p>Error bars show +/1 S.E.M. <b><i>Bottom Panel</i></b>: Mean difference in the percentage of direc...
<p>Three sessions were plotted for the patients, while only the average values were plotted for the ...
<p>Lower graph: Each participant's recognition errors following stimulation of Oz and pSTG. The line...
<p>Average alignment biases for each subject, segregated on the basis of pointer and position. Plots...
<p>Dataset 6: For each participant, percentage accuracy was calculated within each level of visual f...
<p>The meaningless condition was set as the baseline, and changes in accuracy (i.e., increase or dec...
a<p>For response turn and response leg, group means are expressed as a percentage of the correct res...
<p>These plots illustrate an asymmetry in baseline (blue) performance such that participants are mor...
<p>Dataset 4: For each participant, percentage accuracy was calculated within each of the four horiz...
This study investigated the motor control mechanisms that enable healthy individuals to adapt their...