腹侧视觉通路中细粒度图像和类别信息的范围和限制

Markus W. Badwal, Johanna Bergmann, Johannes Roth, Christian F. Doeller, Martin N. Hebart
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摘要

人类可以轻松地将接收到的视觉信息抽象为离散的语义类别。此前对人类进行的功能性核磁共振成像(fMRI)研究发现,大脑皮层的组织原则不仅允许粗略区分有生命和无生命的物体,还允许在单个物体的层次上进行更精细的区分。这表明,fMRI 可携带有关单个物体的精细信息。然而,之前大多数研究细粒度类别表征的工作要么额外包含了物体的粗尺度类别比较,从而混淆了细粒度和粗尺度的区分;要么只使用了每个物体的单个示例,从而混淆了视觉和语义信息。为了应对这些挑战,我们在这里使用了多期人类 fMRI(女性和男性)与广泛但同质的刺激类别(48 种陆生哺乳动物)配对,每种哺乳动物使用 2 个示例。多变量解码和表征相似性分析(RSA)显示,在低级和高级视觉区域中,特定图像的可靠性很高,这表明图像水平上的表征模式是稳定的。与此相反,对同一动物的不同示例进行的分析仅在侧枕复合体(LOC)中产生了微小的影响,这表明该区域存在相当微妙的类别效应。利用深度神经网络和形状模型进行的方差划分显示,EVC 中的跨范例效应主要由低级视觉外观解释,而 LOC 中的表征似乎也包含较高的特定类别信息。这些结果表明,通常用 fMRI 测量的表征主要是图像特异性视觉信息或粗粒度类别信息,但同时也表明,常用的 fMRI 方案可以揭示单个物体之间微妙而可靠的区别。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The scope and limits of fine-grained image and category information in the ventral visual pathway
Humans can easily abstract incoming visual information into discrete semantic categories. Previous research employing functional MRI (fMRI) in humans has identified cortical organizing principles that allow not only for coarse-scale distinctions such as animate versus inanimate objects but also more fine-grained distinctions at the level of individual objects. This suggests that fMRI carries rather fine-grained information about individual objects. However, most previous work investigating fine-grained category representations either additionally included coarse-scale category comparisons of objects, which confounds fine-grained and coarse-scale distinctions, or only used a single exemplar of each object, which confounds visual and semantic information. To address these challenges, here we used multisession human fMRI (female and male) paired with a broad yet homogenous stimulus class of 48 terrestrial mammals, with 2 exemplars per mammal. Multivariate decoding and representational similarity analysis (RSA) revealed high image-specific reliability in low- and high-level visual regions, indicating stable representational patterns at the image level. In contrast, analyses across exemplars of the same animal yielded only small effects in the lateral occipital complex (LOC), indicating rather subtle category effects in this region. Variance partitioning with a deep neural network and shape model showed that across exemplar effects in EVC were largely explained by low-level visual appearance, while representations in LOC appeared to also contain higher category-specific information. These results suggest that representations typically measured with fMRI are dominated by image-specific visual or coarse-grained category information but indicate that commonly employed fMRI protocols may reveal subtle yet reliable distinctions between individual objects.
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