令人惊讶的定义分类

IF 1.5 4区心理学 Q2 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Journal of Mathematical Psychology Pub Date : 2022-09-01 Epub Date: 2022-09-09 DOI:10.1016/j.jmp.2022.102712

Alireza Modirshanechi, Johanni Brea, Wulfram Gerstner

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引用次数: 15

摘要

意外事件触发可测量的大脑活动，并通过影响学习、记忆和决策来影响人类行为。然而，目前对于惊喜的定义还没有达成共识。在这里，我们在一个统一的框架中确定了18个惊喜的数学定义。我们首先根据这些定义对智能体信念的依赖程度，提出了将这些定义分为三组的技术分类，展示了它们之间的关系，并证明了在什么条件下它们是不可区分的。超越这种技术分析，我们提出了惊喜定义的分类法，并根据它们测量的数量将它们分为四个概念类别:(i)“预测惊喜”测量预测和观察之间的不匹配;(ii)“变化点检测突然性”衡量环境变化的可能性;(iii)“信心修正惊喜”明确解释了信心的影响;(4)“信息获得惊喜”衡量的是对新观察的信念更新。这种分类学为大脑中惊讶的功能作用和生理特征的原则性研究奠定了基础。

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A taxonomy of surprise definitions

Surprising events trigger measurable brain activity and influence human behavior by affecting learning, memory, and decision-making. Currently there is, however, no consensus on the definition of surprise. Here we identify 18 mathematical definitions of surprise in a unifying framework. We first propose a technical classification of these definitions into three groups based on their dependence on an agent’s belief, show how they relate to each other, and prove under what conditions they are indistinguishable. Going beyond this technical analysis, we propose a taxonomy of surprise definitions and classify them into four conceptual categories based on the quantity they measure: (i) ‘prediction surprise’ measures a mismatch between a prediction and an observation; (ii) ‘change-point detection surprise’ measures the probability of a change in the environment; (iii) ‘confidence-corrected surprise’ explicitly accounts for the effect of confidence; and (iv) ‘information gain surprise’ measures the belief-update upon a new observation. The taxonomy poses the foundation for principled studies of the functional roles and physiological signatures of surprise in the brain.

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来源期刊

Journal of Mathematical Psychology 医学-数学跨学科应用

CiteScore

3.70

自引率

11.10%

发文量

审稿时长

20.2 weeks

期刊介绍： The Journal of Mathematical Psychology includes articles, monographs and reviews, notes and commentaries, and book reviews in all areas of mathematical psychology. Empirical and theoretical contributions are equally welcome. Areas of special interest include, but are not limited to, fundamental measurement and psychological process models, such as those based upon neural network or information processing concepts. A partial listing of substantive areas covered include sensation and perception, psychophysics, learning and memory, problem solving, judgment and decision-making, and motivation. The Journal of Mathematical Psychology is affiliated with the Society for Mathematical Psychology. Research Areas include: • Models for sensation and perception, learning, memory and thinking • Fundamental measurement and scaling • Decision making • Neural modeling and networks • Psychophysics and signal detection • Neuropsychological theories • Psycholinguistics • Motivational dynamics • Animal behavior • Psychometric theory

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