用于关系推理的互补结构学习神经网络。

Complementary Structure-Learning Neural Networks for Relational Reasoning.

作者信息

Russin Jacob, Zolfaghar Maryam, Park Seongmin A, Boorman Erie, O'Reilly Randall C

机构信息

Department of Psychology, UC Davis.

Center for Neuroscience, UC Davis.

出版信息

Cogsci. 2021 Jul;2021:1560-1566.

PMID:34617073

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8491570/

Abstract

The neural mechanisms supporting flexible relational inferences, especially in novel situations, are a major focus of current research. In the complementary learning systems framework, pattern separation in the hippocampus allows rapid learning in novel environments, while slower learning in neocortex accumulates small weight changes to extract systematic structure from well-learned environments. In this work, we adapt this framework to a task from a recent fMRI experiment where novel transitive inferences must be made according to implicit relational structure. We show that computational models capturing the basic cognitive properties of these two systems can explain relational transitive inferences in both familiar and novel environments, and reproduce key phenomena observed in the fMRI experiment.

摘要

支持灵活关系推理的神经机制，尤其是在新情境中的推理机制，是当前研究的主要焦点。在互补学习系统框架中，海马体中的模式分离允许在新环境中快速学习，而新皮层中较慢的学习则积累微小的权重变化，以便从熟悉的环境中提取系统结构。在这项工作中，我们将此框架应用于最近一项功能磁共振成像（fMRI）实验中的任务，该任务要求根据隐含的关系结构进行新的传递性推理。我们表明，捕捉这两个系统基本认知特性的计算模型可以解释在熟悉和新环境中的关系传递性推理，并重现fMRI实验中观察到的关键现象。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/afbb/8491570/7c2e0c77c9c2/nihms-1741694-f0001.jpg

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