Unraveling Temporal Dynamics of Multidimensional Statistical Learning in Implicit and Explicit Systems: An X-Way Hypothesis

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-02 DOI:10.1111/cogs.13437
Stephen Man-Kit Lee, Nicole Sin Hang Law, Shelley Xiuli Tong
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Abstract

Statistical learning enables humans to involuntarily process and utilize different kinds of patterns from the environment. However, the cognitive mechanisms underlying the simultaneous acquisition of multiple regularities from different perceptual modalities remain unclear. A novel multidimensional serial reaction time task was developed to test 40 participants’ ability to learn simple first-order and complex second-order relations between uni-modal visual and cross-modal audio-visual stimuli. Using the difference in reaction times between sequenced and random stimuli as the index of domain-general statistical learning, a significant difference and dissociation of learning occurred between the initial and final learning phases. Furthermore, we used a negative and positive occurrence-frequency-and-reaction-time correlation to indicate implicit and explicit learning, respectively, and found that learning simple uni-modal patterns involved an implicit-to-explicit segue, while acquiring complex cross-modal patterns required an explicit-to-implicit segue, resulting in a X-shape crossing of regularity learning. Thus, we propose an X-way hypothesis to elucidate the dynamic interplay between the implicit and explicit systems at two distinct stages when acquiring various regularities in a multidimensional probability space.

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揭示隐式和显式系统中多维统计学习的时间动态:X-Way 假设
统计学习使人类能够不由自主地处理和利用环境中的各种模式。然而,从不同感知模式中同时获得多种规律性的认知机制仍不清楚。研究人员开发了一种新颖的多维序列反应时间任务,以测试40名参与者学习单模态视觉刺激和跨模态视听刺激之间简单的一阶关系和复杂的二阶关系的能力。以顺序刺激和随机刺激之间反应时间的差异作为领域一般统计学习的指标,发现初始学习阶段和最终学习阶段之间存在显著差异和学习分离。此外,我们用出现频率和反应时间的负相关和正相关分别表示内隐学习和外显学习,发现学习简单的单模态模式需要内隐到外显的转换,而学习复杂的跨模态模式则需要外显到内隐的转换,从而形成了规律性学习的X型交叉。因此,我们提出了 "X-路 "假说,以阐明在多维概率空间中获得各种规则性时,内隐系统和外显系统在两个不同阶段的动态相互作用。
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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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