<p>Mean localization error with low-<i>T</i><sub>c</sub> (solid) and on-scalp (dashed) systems for different data lengths. Magnetic moment = 1 nAm<sup>2</sup>. Both axes are plotted logarithmic.</p
Aligned by electrodes (A,B) or by fiducials (C,D). Individual results are shown in (A) and (C), with...
<p>Signal time distributions at different lateral positions with no magnet (top) and with magnet (bo...
<p>Signal time distributions at different lateral positions with no magnet (top) and with magnet (bo...
<p>Mean localization error with low-<i>T</i><sub>c</sub> (solid blue) and on-scalp (solid red) syste...
<p>Mean localization error with low-<i>T</i><sub>c</sub> (blue) and on-scalp (red) systems for diffe...
<p>Mean localization error with low-<i>T</i><sub>c</sub> (blue) and on-scalp (red) systems for diffe...
<p>Mean localization error with low-<i>T</i><sub>c</sub> (blue) and on-scalp (red) systems for diffe...
<p>Left: Magnetometer positions used for the low-<i>T</i><sub>c</sub> system (blue; based on the Ele...
<p>The result show a significantly lower number of actions required to reach a criterion RMS error <...
Aligned by electrodes (A,B) or by fiducials (C,D). Individual results are shown in (A) and (C), with...
<p>Left: classical head localization where a large array of sensors (blue; here: the low-<i>T</i><su...
<p>Responses from all subjects are combined on the same axes. Each radius (colors) gives the head tu...
The earth mover’s distance (EMD) measuring the amount of work required to transfer a distributional ...
<p>The localization error is plotted along the x-axis. The percentage of sources reconstructed with ...
<p>The perceived sound location is depicted per stimulus angle, averaged over presentations. Error b...
Aligned by electrodes (A,B) or by fiducials (C,D). Individual results are shown in (A) and (C), with...
<p>Signal time distributions at different lateral positions with no magnet (top) and with magnet (bo...
<p>Signal time distributions at different lateral positions with no magnet (top) and with magnet (bo...
<p>Mean localization error with low-<i>T</i><sub>c</sub> (solid blue) and on-scalp (solid red) syste...
<p>Mean localization error with low-<i>T</i><sub>c</sub> (blue) and on-scalp (red) systems for diffe...
<p>Mean localization error with low-<i>T</i><sub>c</sub> (blue) and on-scalp (red) systems for diffe...
<p>Mean localization error with low-<i>T</i><sub>c</sub> (blue) and on-scalp (red) systems for diffe...
<p>Left: Magnetometer positions used for the low-<i>T</i><sub>c</sub> system (blue; based on the Ele...
<p>The result show a significantly lower number of actions required to reach a criterion RMS error <...
Aligned by electrodes (A,B) or by fiducials (C,D). Individual results are shown in (A) and (C), with...
<p>Left: classical head localization where a large array of sensors (blue; here: the low-<i>T</i><su...
<p>Responses from all subjects are combined on the same axes. Each radius (colors) gives the head tu...
The earth mover’s distance (EMD) measuring the amount of work required to transfer a distributional ...
<p>The localization error is plotted along the x-axis. The percentage of sources reconstructed with ...
<p>The perceived sound location is depicted per stimulus angle, averaged over presentations. Error b...
Aligned by electrodes (A,B) or by fiducials (C,D). Individual results are shown in (A) and (C), with...
<p>Signal time distributions at different lateral positions with no magnet (top) and with magnet (bo...
<p>Signal time distributions at different lateral positions with no magnet (top) and with magnet (bo...
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