Fig 4 - uploaded by Samuel A. Nastase
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Distribution of searchlight reliabilities of individual differences across functional indices, spatial scales, and alignment methods. With hyperalignment, individual differences were more reliable across all three functional indices (left column, see also Fig. 1B and Fig. 2). When only coarse-scale information was used, the distribution of reliabilities was similar for both alignment methods (middle column, see also Fig. 3). By contrast, when only fine-scale information was used, the distribution of reliabilities shifted toward higher values with hyperalignment (right column, see also Fig. 3). Dashed lines denote quartiles of each distribution.
Source publication
Fine-grained functional organization of cortex is not well-conserved across individuals. As a result, individual differences in cortical functional architecture are confounded by topographic idiosyncrasies—i.e., differences in functional–anatomical correspondence. In this study, we used hyperalignment to align information encoded in topographically...
Context in source publication
Context 1
... reliability of fine-scale individual differences benefited more from hyperalignment than did the reliability of coarse-scale individual differences (Fig. 4). When using response profiles to index individual differences, the increases in average reliability with hyperalignment were 0.246 and 0.032 respectively, and the increase for fine-scale individual differences was higher by ...
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Fine-grained functional organization of cortex is not well-conserved across individuals. As a result, individual differences in cortical functional architecture are confounded by topographic idiosyncrasies-i.e., differences in functional-anatomical correspondence. In this study, we used hyperalignment to align information encoded in topographically...
