How Curiosity Enhances Hippocampus-Dependent Memory: The Prediction, Appraisal, Curiosity, and Exploration (PACE) Framework

Gruber Matthias J.; Ranganath Charan

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How Curiosity Enhances Hippocampus-Dependent Memory: The Prediction, Appraisal, Curiosity, and Exploration (PACE) Framework

机译：好奇心如何增强海马依赖记忆：预测，评估，好奇心和勘探（步伐）框架

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Curiosity plays a fundamental role for learning and memory, but the neural mechanisms that stimulate curiosity and its effect on memory are poorly understood. Accumulating evidence sug gests that curiosity states are related to modulations in activity in the dopaminergic circuit and that these modulations impact memory encoding and consolidation for both targets of curiosity and incidental information encountered during curiosity states. To account for this evidence, WE propose the Prediction, Appraisal, Curiosity, and Exploration (PACE) framework, which at tempts to explain curiosity and memory in terms of cognitive processes, neural circuits , behavior, and subjective experience. The PACE framework generates testable predictions that can stimulate future investigation of the mechanisms underlying curiosity-related memory enhancements.

机译：好奇心对学习和记忆起着基本作用，但是刺激好奇心的神经机制及其对记忆的影响很差。累积证据Sug Gests，这种情况态与多巴胺能电路中活性的调节有关，并且这些调制影响了在好奇心状态期间遇到的好奇心和偶然信息的内存编码和整合。为了考虑到这一证据，我们提出了预测，评估，好奇心和探索（PACE）框架，这在诱惑中解释了在认知过程，神经电路，行为和主观体验方面的好奇心和记忆。步伐框架可以产生可测量的预测，可以刺激未来对相关内存增强功能的机制的未来调查。

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《Trends in cognitive sciences》 |2019年第12期|共12页
作者
Gruber Matthias J.; Ranganath Charan;
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Cardiff Univ Brain Res Imaging Ctr CUBRIC Sch Psychol Cardiff S Glam Wales;

Univ Calif Davis Ctr Neurosci Davis CA 95616 USA;

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正文语种 eng
中图分类医药、卫生;
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入库时间 2022-08-20 08:05:53

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1. How Curiosity Enhances Hippocampus-Dependent Memory: The Prediction, Appraisal, Curiosity, and Exploration (PACE) Framework [J] . Gruber Matthias J., Ranganath Charan Trends in cognitive sciences . 2019,第12期

机译：好奇心如何增强海马依赖记忆：预测，评估，好奇心和勘探（步伐）框架
2. Curiosity-driven Exploration by Self-supervised Prediction [J] . Deepak Pathak, Pulkit Agrawal, Alexei A. Efros, JMLR: Workshop and Conference Proceedings . 2017,第1期

机译：自我监督预测的好奇心驱动探索
3. States of Curiosity Modulate Hippocampus-Dependent Learning via the Dopaminergic Circuit [J] . GruberM.J., GelmanB.D., RanganathC. Neuron . 2014,第2期

机译：好奇心的状态通过多巴胺能回路调节海马依赖性学习。
4. Efficient Exploration by Decision Making Considering Curiosity and Episodic Memory in Deep Reinforcement Learning [C] . Daiki Kuyoshi, Kuniyasu Imade, Satoshi Yamane International Symposium on Computing and Networking Workshops . 2020

机译：考虑深增强学习中的好奇心和情节记忆的决策有效探索
5. EXPLORATIONS IN CURIOSITY: BREADTH AND DEPTH OF INTEREST CURIOSITY STYLES [D] . AINLEY, MARY D. 1986

机译：好奇心的探索：宽度和兴趣深度好奇风格
6. States of curiosity modulate hippocampus-dependent learning via the dopaminergic circuit [O] . Matthias J. Gruber, Bernard D. Gelman, Charan Ranganath -1

机译：好奇心的状态通过多巴胺能回路调节海马依赖性学习
7. Understanding children's curiosity and exploration through the lenses of Lewin's field theory : on developing an appraisal framework [O] . Chak A 2002

机译：通过Lewin的场论来理解儿童的好奇心和探索：建立评估框架

How Curiosity Enhances Hippocampus-Dependent Memory: The Prediction, Appraisal, Curiosity, and Exploration (PACE) Framework

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