在连续叙事感知与记忆中发现事件结构

Discovering Event Structure in Continuous Narrative Perception and Memory.

作者信息

Baldassano Christopher, Chen Janice, Zadbood Asieh, Pillow Jonathan W, Hasson Uri, Norman Kenneth A

机构信息

Princeton Neuroscience Institute and Department of Psychology, Princeton University, Princeton, NJ 08544, USA.

Department of Psychological and Brain Sciences, Johns Hopkins University, Baltimore, MD 21218, USA.

出版信息

Neuron. 2017 Aug 2;95(3):709-721.e5. doi: 10.1016/j.neuron.2017.06.041.

DOI:10.1016/j.neuron.2017.06.041

PMID:28772125

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5558154/

Abstract

During realistic, continuous perception, humans automatically segment experiences into discrete events. Using a novel model of cortical event dynamics, we investigate how cortical structures generate event representations during narrative perception and how these events are stored to and retrieved from memory. Our data-driven approach allows us to detect event boundaries as shifts between stable patterns of brain activity without relying on stimulus annotations and reveals a nested hierarchy from short events in sensory regions to long events in high-order areas (including angular gyrus and posterior medial cortex), which represent abstract, multimodal situation models. High-order event boundaries are coupled to increases in hippocampal activity, which predict pattern reinstatement during later free recall. These areas also show evidence of anticipatory reinstatement as subjects listen to a familiar narrative. Based on these results, we propose that brain activity is naturally structured into nested events, which form the basis of long-term memory representations.

摘要

在现实的连续感知过程中，人类会自动将体验分割为离散事件。我们使用一种新的皮层事件动力学模型，研究皮层结构在叙事感知过程中如何生成事件表征，以及这些事件如何存储到记忆中并从记忆中检索出来。我们的数据驱动方法使我们能够将事件边界检测为大脑活动稳定模式之间的转变，而无需依赖刺激注释，并揭示了一个从感觉区域的短事件到高阶区域（包括角回和后内侧皮层）的长事件的嵌套层次结构，这些高阶区域代表抽象的多模态情境模型。高阶事件边界与海马体活动的增加相关联，这预测了后期自由回忆时模式的恢复。当受试者听熟悉的叙事时，这些区域也显示出预期恢复的证据。基于这些结果，我们提出大脑活动自然地构建为嵌套事件，这些事件构成了长期记忆表征的基础。

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