De Rosa Mara, Ktori Maria, Vidal Yamil, Bottini Roberto, Crepaldi Davide
Department of Cognitive Neuroscience, International School for Advanced Studies (SISSA), Trieste, Italy.
Department of Cognitive Neuroscience, International School for Advanced Studies (SISSA), Trieste, Italy.
Cortex. 2022 Mar;148:193-203. doi: 10.1016/j.cortex.2022.01.005. Epub 2022 Jan 31.
Humans capitalize on statistical cues to discriminate fundamental units of information within complex streams of sensory input. We sought neural evidence for this phenomenon by combining fast periodic visual stimulation (FPVS) and EEG recordings. Skilled readers were exposed to sequences of linguistic items with decreasing familiarity, presented at a fast rate and periodically interleaved with oddballs. Crucially, each sequence comprised stimuli of the same category, and the only distinction between base and oddball items was the frequency of occurrence of individual tokens within a stream. Frequency-domain analyses revealed robust neural responses at the oddball presentation rate in all conditions, reflecting the discrimination between two locally-emerged groups of items purely informed by token frequency. Results provide evidence for a fundamental frequency-tuned mechanism that operates under high temporal constraints and could underpin category bootstrapping. Concurrently, they showcase the potential of FPVS for providing a direct neural measure of implicit statistical learning.
人类利用统计线索来区分复杂感官输入流中的基本信息单元。我们通过结合快速周期性视觉刺激(FPVS)和脑电图记录来寻找这一现象的神经证据。让熟练的阅读者接触熟悉度逐渐降低的语言项目序列,这些序列以快速的速度呈现,并定期穿插出现异常项目。至关重要的是,每个序列都由同一类别的刺激组成,基础项目和异常项目之间的唯一区别在于流中单个令牌的出现频率。频域分析显示,在所有条件下,异常项目呈现速率下都有强大的神经反应,反映了纯粹由令牌频率告知的两组局部出现项目之间的区分。结果为一种基本的频率调谐机制提供了证据,该机制在高时间限制下运行,并可能支持类别引导。同时,它们展示了FPVS在提供隐式统计学习的直接神经测量方面的潜力。
