未来的钥匙?序列模式学习的统计性与判别性分析》。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-31 DOI:10.1111/cogs.13404
Fabian Tomaschek, Michael Ramscar, Jessie S. Nixon
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引用次数: 0

摘要

序列学习是多种认知功能的基础。如何解释序列以及序列所包含的元素之间的关系是认知科学面临的一个基本挑战。然而,尽管每年都有数百篇文章探讨这个问题,但很少有人研究序列学习所涉及的实际学习机制。我们介绍了三个实验,试图在打字任务中研究这些机制。实验 1 和 2 测试了在每次试验中输入单个字母时的学习情况。实验 3 测试了将这些字母 "分块 "为 "单词 "的情况。我们利用这些实验的结果来研究最能解释这些结果的机制,重点是两个特别的提议:统计过渡概率学习和辨别错误驱动学习。实验 1 和 2 显示,错误驱动学习比 n-语法频率或过渡概率更能预测反应潜伏期。实验 3 中没有发现分块的证据,这可能是由于在运动反应中穿插了视觉线索。此外,与实验 2 相比,实验 1 中的学习距离更远,这表明随着结构的增加,更高的可预测性会带来更高的可学性。这些结果为序列学习的机制提供了新的线索。尽管人们普遍认为过渡概率学习对这一过程至关重要,但本研究结果表明,序列学习是通过辨别学习过程进行的,其中包括预测和预测错误的反馈。
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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The Keys to the Future? An Examination of Statistical Versus Discriminative Accounts of Serial Pattern Learning

Sequence learning is fundamental to a wide range of cognitive functions. Explaining how sequences—and the relations between the elements they comprise—are learned is a fundamental challenge to cognitive science. However, although hundreds of articles addressing this question are published each year, the actual learning mechanisms involved in the learning of sequences are rarely investigated. We present three experiments that seek to examine these mechanisms during a typing task. Experiments 1 and 2 tested learning during typing single letters on each trial. Experiment 3 tested for “chunking” of these letters into “words.” The results of these experiments were used to examine the mechanisms that could best account for them, with a focus on two particular proposals: statistical transitional probability learning and discriminative error-driven learning. Experiments 1 and 2 showed that error-driven learning was a better predictor of response latencies than either n-gram frequencies or transitional probabilities. No evidence for chunking was found in Experiment 3, probably due to interspersing visual cues with the motor response. In addition, learning occurred across a greater distance in Experiment 1 than Experiment 2, suggesting that the greater predictability that comes with increased structure leads to greater learnability. These results shed new light on the mechanism responsible for sequence learning. Despite the widely held assumption that transitional probability learning is essential to this process, the present results suggest instead that the sequences are learned through a process of discriminative learning, involving prediction and feedback from prediction error.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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