Manipulating and measuring variation in deep neural network (DNN) representations of objects

IF 2.8 1区 心理学 Q1 PSYCHOLOGY, EXPERIMENTAL
Jason K. Chow, Thomas J. Palmeri
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引用次数: 0

Abstract

We explore how DNNs can be used to develop a computational understanding of individual differences in high-level visual cognition given their ability to generate rich meaningful object representations informed by their architecture, experience, and training protocols. As a first step to quantifying individual differences in DNN representations, we systematically explored the robustness of a variety of representational similarity measures: Representational Similarity Analysis (RSA), Centered Kernel Alignment (CKA), and Projection-Weighted Canonical Correlation Analysis (PWCCA), with an eye to how these measures are used in cognitive science, cognitive neuroscience, and vision science. To manipulate object representations, we next created a large set of models varying in random initial weights and random training image order, training image frequencies, training category frequencies, and model size and architecture and measured the representational variation caused by each manipulation. We examined both small (All-CNN-C) and commonly-used large (VGG and ResNet) DNN architectures. To provide a comparison for the magnitude of representational differences, we established a baseline based on the representational variation caused by image-augmentation techniques used to train those DNNs. We found that variation in model randomization and model size never exceeded baseline. By contrast, differences in training image frequency and training category frequencies caused representational variation that exceeded baseline, with training category frequency manipulations exceeding baseline earlier in the networks. These findings provide insights into the magnitude of representational variations that can be expected with a range of manipulations and provide a springboard for further exploration of systematic model variations aimed at modeling individual differences in high-level visual cognition.

操纵和测量深度神经网络 (DNN) 对物体表征的变化
鉴于 DNN 能够根据其架构、经验和训练协议生成丰富而有意义的对象表征,我们探讨了如何利用 DNN 来开发对高级视觉认知中个体差异的计算理解。作为量化 DNN 表征个体差异的第一步,我们系统地探索了各种表征相似性测量的稳健性:表征相似性分析 (RSA)、中心核对齐 (CKA) 和投影加权典型相关分析 (PWCCA),以了解这些方法在认知科学、认知神经科学和视觉科学中的应用。为了操纵对象表征,我们接下来创建了大量模型,这些模型的初始权重、训练图像顺序、训练图像频率、训练类别频率以及模型大小和结构都是随机变化的。我们研究了小型(All-CNN-C)和常用的大型(VGG 和 ResNet)DNN 架构。为了比较表征差异的大小,我们根据用于训练这些 DNN 的图像增强技术所造成的表征差异建立了一个基线。我们发现,模型随机化和模型大小的变化从未超过基线。相比之下,训练图像频率和训练类别频率的差异造成的表征变化超过了基线,其中训练类别频率操作在网络早期就超过了基线。这些发现让我们深入了解了一系列操作所能产生的表象变化的程度,并为进一步探索系统模型变化提供了跳板,旨在模拟高级视觉认知中的个体差异。
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来源期刊
Cognition
Cognition PSYCHOLOGY, EXPERIMENTAL-
CiteScore
6.40
自引率
5.90%
发文量
283
期刊介绍: Cognition is an international journal that publishes theoretical and experimental papers on the study of the mind. It covers a wide variety of subjects concerning all the different aspects of cognition, ranging from biological and experimental studies to formal analysis. Contributions from the fields of psychology, neuroscience, linguistics, computer science, mathematics, ethology and philosophy are welcome in this journal provided that they have some bearing on the functioning of the mind. In addition, the journal serves as a forum for discussion of social and political aspects of cognitive science.
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