<p>The mean relative error and standard deviation (vertical bar) versus the acceleration factor in MCS-MRI highlighting that noiselet encoding consistently outperforms Fourier encoding.</p
<p>Mean of the Variance of speed for each testing condition. Error bars represent the standard error...
<p>The average metric values of different algorithms for MRI brain images(Mean value (95%CI)).</p
<p>Average normalized relative decision weights, as a function of segment number, condition, and noi...
<p>Noiselet encoding outperforms Fourier encoding for both acceleration factors when the number of c...
<p><b>(a)-(b)</b>: show images reconstructed with Fourier encoding for acceleration factors of 4 and...
<p><b>(a)-(c)</b>: show images reconstructed with Fourier encoding for acceleration factors of 4, 8,...
<p><b>(a)</b>: shows reference image reconstructed from fully sampled Fourier encoded data; <b>(b)-(...
<p><b>RF</b>: shows reference image reconstructed from fully sampled Fourier encoded data; <b>RN</b>...
<p><b>(a), (b) and (c)</b>: are the plots of the mean relative error as a function of the signal to ...
<p>MFM<sub>total</sub>: mean pixel intensity, MRCS: MRC sumscore, MFM: motor function measurement. T...
<p>The x-axis represents the noise level (including the no noise condition) for a pair of random dot...
<p>(For MLPD, all the available data are used. For SLPD, only the MRI features are used. The best va...
<p>A median-split analysis revealed that voxels with higher noise correlations were assigned higher ...
<p>Mean accuracy (SD) for the letter and fingerspelling conditions during fMRI.</p
<p>The top and bottom panels depict percent correct classification rates (accuracies) obtained from ...
<p>Mean of the Variance of speed for each testing condition. Error bars represent the standard error...
<p>The average metric values of different algorithms for MRI brain images(Mean value (95%CI)).</p
<p>Average normalized relative decision weights, as a function of segment number, condition, and noi...
<p>Noiselet encoding outperforms Fourier encoding for both acceleration factors when the number of c...
<p><b>(a)-(b)</b>: show images reconstructed with Fourier encoding for acceleration factors of 4 and...
<p><b>(a)-(c)</b>: show images reconstructed with Fourier encoding for acceleration factors of 4, 8,...
<p><b>(a)</b>: shows reference image reconstructed from fully sampled Fourier encoded data; <b>(b)-(...
<p><b>RF</b>: shows reference image reconstructed from fully sampled Fourier encoded data; <b>RN</b>...
<p><b>(a), (b) and (c)</b>: are the plots of the mean relative error as a function of the signal to ...
<p>MFM<sub>total</sub>: mean pixel intensity, MRCS: MRC sumscore, MFM: motor function measurement. T...
<p>The x-axis represents the noise level (including the no noise condition) for a pair of random dot...
<p>(For MLPD, all the available data are used. For SLPD, only the MRI features are used. The best va...
<p>A median-split analysis revealed that voxels with higher noise correlations were assigned higher ...
<p>Mean accuracy (SD) for the letter and fingerspelling conditions during fMRI.</p
<p>The top and bottom panels depict percent correct classification rates (accuracies) obtained from ...
<p>Mean of the Variance of speed for each testing condition. Error bars represent the standard error...
<p>The average metric values of different algorithms for MRI brain images(Mean value (95%CI)).</p
<p>Average normalized relative decision weights, as a function of segment number, condition, and noi...
DOI
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