<p>The scalp voltage distribution during the instructive period (A) displayed fronto-central and posterior negativity. The topography during the last 100 ms of the gap period, after subtracting the trend line during the instructive period, showed the fronto-central but not the occipital component (B).</p
<p>Scalp potential distributions in the subtraction of topographical activity in the TD versus ASD g...
<p>Spatial distribution of (a) VLF power (0.02–0.2 Hz) at rest and (b) attention-induced deactivatio...
<p>This time window is centered on the second peak of the non-target event-related potential slope f...
<p>From A–C, ERP comparison between each pair of tasks at the electrode FCz during the preparatory p...
<p>Topographies calculated as the mean voltage contralateral minus ipsilateral, for all lateral elec...
<p>The time points of the P1 and N1 components were 80–120 ms and 150–190 ms both in the WM group an...
The present report studied the contingent negative variation during Gap and Non-Gap conditions using...
<p>The voltage topographies of the fronto-central components on the scalp are shown for Neutral (top...
<p>(Top) Voltage distributions of the P3b across the scalp for both learning conditions. Clear diffe...
<p>The voltage topographies of the parieto-occipital components on the scalp are shown for Neutral (...
<p>The maximum activity distributions are shown on flattened scalp surface. Dark dots on the scalp s...
<p>Topographic maps depict the topographic distributions for delta, theta and alpha frequency band d...
<p>Top row: Topographic comparison between V-A and A-A, and V-A and V-V (significant differences sho...
Scalp plots showing median RMS voltage during baseline periods of no stimulus presentation (i.e., fr...
<p>(A) Topography of mean amplitude differences (low minus high predictability) in the epoch from 50...
<p>Scalp potential distributions in the subtraction of topographical activity in the TD versus ASD g...
<p>Spatial distribution of (a) VLF power (0.02–0.2 Hz) at rest and (b) attention-induced deactivatio...
<p>This time window is centered on the second peak of the non-target event-related potential slope f...
<p>From A–C, ERP comparison between each pair of tasks at the electrode FCz during the preparatory p...
<p>Topographies calculated as the mean voltage contralateral minus ipsilateral, for all lateral elec...
<p>The time points of the P1 and N1 components were 80–120 ms and 150–190 ms both in the WM group an...
The present report studied the contingent negative variation during Gap and Non-Gap conditions using...
<p>The voltage topographies of the fronto-central components on the scalp are shown for Neutral (top...
<p>(Top) Voltage distributions of the P3b across the scalp for both learning conditions. Clear diffe...
<p>The voltage topographies of the parieto-occipital components on the scalp are shown for Neutral (...
<p>The maximum activity distributions are shown on flattened scalp surface. Dark dots on the scalp s...
<p>Topographic maps depict the topographic distributions for delta, theta and alpha frequency band d...
<p>Top row: Topographic comparison between V-A and A-A, and V-A and V-V (significant differences sho...
Scalp plots showing median RMS voltage during baseline periods of no stimulus presentation (i.e., fr...
<p>(A) Topography of mean amplitude differences (low minus high predictability) in the epoch from 50...
<p>Scalp potential distributions in the subtraction of topographical activity in the TD versus ASD g...
<p>Spatial distribution of (a) VLF power (0.02–0.2 Hz) at rest and (b) attention-induced deactivatio...
<p>This time window is centered on the second peak of the non-target event-related potential slope f...