Fig. 4 Visualization of the 20 occipital lobe models, trained to predict EmoNet categories from brain responses to emotional images. Visualization of the.

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Fig. 4 Visualization of the 20 occipital lobe models, trained to predict EmoNet categories from brain responses to emotional images. Visualization of the 20 occipital lobe models, trained to predict EmoNet categories from brain responses to emotional images. Visualization based on PCA reveals three important emotion-related features of the visual system. (A) Scatterplots depict the location of 20 emotion categories in PCA space, with colors indicating loadings onto the first three principal components (PCs) identified from 7214 voxels that retain approximately 95% of the spatial variance across categories. The color of each point is based on the component scores for each emotion (in an additive red-green-blue color space; PC1 = red, PC2 = green, PC3 = blue). Error bars reflect bootstrap SE. (B) Visualization of group average coefficients that show mappings between voxels and principal components. Colors are from the same space as depicted in (A). Solid black lines indicate boundaries of cortical regions based on a multimodal parcellation of the cortex (41). Surface mapping and rendering were performed using the CAT12 toolbox (42). (C) Normalized confusion matrix shows the proportion of data that are classified into 20 emotion categories. Rows correspond to the correct category of cross-validated data, and columns correspond to predicted categories. Gray colormap indicates the proportion of predictions in the dataset, where each row sums to a value of 1. Correct predictions fall on the diagonal of the matrix; erroneous predictions comprise off-diagonal elements. Data-driven clustering of errors shows 15 groupings of emotions that are all distinguishable from one another. (D) Visualization of distances between emotion groupings. Dashed line indicates minimum cutoff that produces 15 discriminable categories. Dendrogram was produced using Ward’s linkage on distances based on the number of confusions displayed in (C). See Supplementary Text for a description and validation of the method. Philip A. Kragel et al. Sci Adv 2019;5:eaaw4358 Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).