A Multinomial Processing Tree Model of the 2-back Working Memory Task.

Computational brain & behavior Pub Date : 2022-09-01 Epub Date: 2022-06-07 DOI:10.1007/s42113-022-00138-1
Michael D Lee, Percy K Mistry, Vinod Menon
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引用次数: 0

Abstract

The n-back task is a widely used behavioral task for measuring working memory and the ability to inhibit interfering information. We develop a novel model of the commonly used 2-back task using the cognitive psychometric framework provided by Multinomial Processing Trees. Our model involves three parameters: a memory parameter, corresponding to how well an individual encodes and updates sequence information about presented stimuli; a decision parameter corresponding to how well participants execute choices based on information stored in memory; and a base-rate parameter corresponding to bias for responding "yes" or "no". We test the parameter recovery properties of the model using existing 2-back experimental designs, and demonstrate the application of the model to two previous data sets: one from social psychology involving faces corresponding to different races (Stelter and Degner, British Journal of Psychology 109:777-798, 2018), and one from cognitive neuroscience involving more than 1000 participants from the Human Connectome Project (Van Essen et al., Neuroimage 80:62-79, 2013). We demonstrate that the model can be used to infer interpretable individual-level parameters. We develop a hierarchical extension of the model to test differences between stimulus conditions, comparing faces of different races, and comparing face to non-face stimuli. We also develop a multivariate regression extension to examine the relationship between the model parameters and individual performance on standardized cognitive measures including the List Sorting and Flanker tasks. We conclude by discussing how our model can be used to dissociate underlying cognitive processes such as encoding failures, inhibition failures, and binding failures.

双背工作记忆任务的多项式处理树模型。
n-back任务是一种广泛使用的行为任务,用于测量工作记忆和抑制干扰信息的能力。我们利用多项式处理树提供的认知心理测量框架,开发了一个常用的双背任务的新模型。我们的模型包括三个参数:记忆参数,对应于个体对所呈现刺激的序列信息的编码和更新程度;决策参数,所述决策参数对应于参与者基于存储在存储器中的信息执行选择的程度;以及与用于响应“是”或“否”的偏置相对应的基本速率参数。我们使用现有的双背实验设计测试了该模型的参数恢复特性,并将该模型应用于之前的两个数据集:一个来自社会心理学,涉及不同种族的人脸(Stelter和Degner,《英国心理学杂志》109:777-77982018),一个来自认知神经科学,涉及人类连接体项目的1000多名参与者(Van Essen等人,Neuroimage 80:62-792013)。我们证明了该模型可以用来推断可解释的个体水平参数。我们开发了该模型的层次扩展,以测试刺激条件之间的差异,比较不同种族的面孔,并比较面孔和非面孔刺激。我们还开发了一个多元回归扩展,以检验模型参数与个体在标准化认知测量中的表现之间的关系,包括列表排序和Flanker任务。最后,我们讨论了如何使用我们的模型来分离潜在的认知过程,如编码失败、抑制失败和绑定失败。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
4.30
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0.00%
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