<p>Group averages are shown with red outlines, and these indicate that the relation between gaze location and accuracy across subjects was weak, despite some medium strength correlations in individual subjects.</p
This is the copy of journal's version originally published in Proc. SPIE 6806. Reprinted with permis...
<p>(<b>a</b>) First fixation locations across participants for the upper (blue) and lower (yellow) s...
<p>(A) Distribution of eye positions with different head orientations is shown in different panels. ...
<p>The sampling rate of our equipment (60 Hz) was not sufficient to resolve individual microsaccades...
The gaze direction effect is the finding that observers are typically faster at detecting or identif...
<p>Gaze-cueing effects as function of target position (exact gazed-at position vs. other positions i...
<p>(<b>a</b>) One trial of a single participant (P9) for the object at the middle position. (<b>b</b...
We passively recorded eye movements from our in-lab subjects using an Eyelink 1000 Plus (monocular; ...
<p>Depicted error bars represent corrected standard errors of the mean adjusted to within-participan...
<p>(<b>a</b>) Two trials of a single participant (P11), one with the hand starting from the <i>far</...
<p>Gaze similarity is calculated relative to the Context + Inference group. Similarity is expressed ...
<p>Depicted error bars represent standard errors of the mean adjusted to within-participants design....
Participant gaze data from two different trials (A,B and C,D) are shown. Gaze positions in screen co...
<p>(<b>a</b>) Two trials of a single participant (P9) for one object orientation and the object gras...
<p>(<b>a</b>) Two trials of a single participant (P11) for an object orientation for which the objec...
This is the copy of journal's version originally published in Proc. SPIE 6806. Reprinted with permis...
<p>(<b>a</b>) First fixation locations across participants for the upper (blue) and lower (yellow) s...
<p>(A) Distribution of eye positions with different head orientations is shown in different panels. ...
<p>The sampling rate of our equipment (60 Hz) was not sufficient to resolve individual microsaccades...
The gaze direction effect is the finding that observers are typically faster at detecting or identif...
<p>Gaze-cueing effects as function of target position (exact gazed-at position vs. other positions i...
<p>(<b>a</b>) One trial of a single participant (P9) for the object at the middle position. (<b>b</b...
We passively recorded eye movements from our in-lab subjects using an Eyelink 1000 Plus (monocular; ...
<p>Depicted error bars represent corrected standard errors of the mean adjusted to within-participan...
<p>(<b>a</b>) Two trials of a single participant (P11), one with the hand starting from the <i>far</...
<p>Gaze similarity is calculated relative to the Context + Inference group. Similarity is expressed ...
<p>Depicted error bars represent standard errors of the mean adjusted to within-participants design....
Participant gaze data from two different trials (A,B and C,D) are shown. Gaze positions in screen co...
<p>(<b>a</b>) Two trials of a single participant (P9) for one object orientation and the object gras...
<p>(<b>a</b>) Two trials of a single participant (P11) for an object orientation for which the objec...
This is the copy of journal's version originally published in Proc. SPIE 6806. Reprinted with permis...
<p>(<b>a</b>) First fixation locations across participants for the upper (blue) and lower (yellow) s...
<p>(A) Distribution of eye positions with different head orientations is shown in different panels. ...