<p>(A) and (B) represent ERP PC analysis in the frontal and sensorimotor-parietal areas, respectively. The upper and middle rows represent the pooled time-frequency distribution of PC1 (the primary principal component of ERP in the regions of interest) in the 13–35 Hz and 1–12 Hz spectral bands, respectively. The bottom row is the mean temporal profile of ERP PC1, which clearly exhibits N1 and P2 components.</p
<p>(A) Millisecond-by-millisecond topological ANOVA (TANOVA) results. T1 is a time point that exhibi...
<p>Top panels display the first principal component of the time-domain analysis (explained variance ...
<p>A) Grand-averaged response-locked ERP waveforms for congruent and incongruent conditions for fron...
<p>Grand average ERP topographies of the occipito-temporal N1 and fronto-central P2 components acros...
<p>a) The topographical distribution of electrode loadings from the rotated component matrix for the...
<p>(A) Temporal profiles of GFP for all subjects. Black-bold lines indicate subject-averaged GFP pro...
<p><b>A</b>: The mean amplitudes' peak for occipito-perietal P1, N1, P2 and LPP, (lower) and frontal...
<p>Grand average ERPs of the occipito-temporal P1 and N1, fronto-central P2, and parietal P3 compone...
Principal components analysis (PCA) has long been used to decompose the ERP into components, and the...
<p>The figure represents the ERP waveforms recorded from the frontal-central electrodes in the left ...
<p>A) Grand-averaged stimulus-locked ERP waveforms for congruent and incongruent conditions for fron...
<p>Each curve is the averaged 1<sup>st</sup> or 2<sup>nd</sup> principal component across 50 electro...
<p>Activity mappings also demonstrate distribution of frontal (b) and parietal (d) activities during...
<div><p>(A–D) Far-frontal component cluster accounting for the preresponse (P3f) positivity.</p> ...
<p>a) MRCP waveforms (response-related activity) over the prefrontal lobe (Fp2) and the sensorimotor...
<p>(A) Millisecond-by-millisecond topological ANOVA (TANOVA) results. T1 is a time point that exhibi...
<p>Top panels display the first principal component of the time-domain analysis (explained variance ...
<p>A) Grand-averaged response-locked ERP waveforms for congruent and incongruent conditions for fron...
<p>Grand average ERP topographies of the occipito-temporal N1 and fronto-central P2 components acros...
<p>a) The topographical distribution of electrode loadings from the rotated component matrix for the...
<p>(A) Temporal profiles of GFP for all subjects. Black-bold lines indicate subject-averaged GFP pro...
<p><b>A</b>: The mean amplitudes' peak for occipito-perietal P1, N1, P2 and LPP, (lower) and frontal...
<p>Grand average ERPs of the occipito-temporal P1 and N1, fronto-central P2, and parietal P3 compone...
Principal components analysis (PCA) has long been used to decompose the ERP into components, and the...
<p>The figure represents the ERP waveforms recorded from the frontal-central electrodes in the left ...
<p>A) Grand-averaged stimulus-locked ERP waveforms for congruent and incongruent conditions for fron...
<p>Each curve is the averaged 1<sup>st</sup> or 2<sup>nd</sup> principal component across 50 electro...
<p>Activity mappings also demonstrate distribution of frontal (b) and parietal (d) activities during...
<div><p>(A–D) Far-frontal component cluster accounting for the preresponse (P3f) positivity.</p> ...
<p>a) MRCP waveforms (response-related activity) over the prefrontal lobe (Fp2) and the sensorimotor...
<p>(A) Millisecond-by-millisecond topological ANOVA (TANOVA) results. T1 is a time point that exhibi...
<p>Top panels display the first principal component of the time-domain analysis (explained variance ...
<p>A) Grand-averaged response-locked ERP waveforms for congruent and incongruent conditions for fron...