应用于远程学习的电生理研究:超扫描范式的初步结果

Pub Date : 2022-04-01 DOI:10.7358/neur-2022-031-cass
Federico Cassioli, M. Balconi
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引用次数: 2

摘要

组织中学习的数字化既是必要的,也是一个机会。几乎没有研究探讨远程训练如何影响个人和工作组的认知和情感过程。因此,在这项工作中,我们提出了一种超扫描研究设计,其中会话分析用于比较在两种情况下(面对面和远程)进行的等效训练课程之间的神经生理测量(频带分析:delta, theta, alpha和beta),通过收集训练者和三组受训者的脑电图数据(EEG)。我们从理论上描述了该方案,并进一步报告了初步的探索性结果。数据显示,这种情况对θ波和β波都有显著影响,面对面的情况下同步程度更高。此外,与培训师相比,学员似乎更容易受到授课方式的影响。这项工作强调了神经生理学测量与测试电子学习效果的相关性。
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An electrophysiological study applied to remote learning: preliminary results from an hyperscanning paradigm
The digitalization of learning in the organization represents both a necessity and an opportunity. Little to no research explored how distance training affects cognitive and affective processes in individuals and workgroups. For this reason, in this work, we propose an hyperscanning research design where conversational analysis is used to compare neurophysiological measures (frequency band analysis: delta, theta, alpha, and beta) between an equivalent training session carried out in two conditions (face-to-face and remote), by collecting electroencephalographic data (EEG) on a trainer and three groups of trainees. We theoretically describe the protocol, and we further report initial explorative results. Data showed a significant effect of the condition on both theta and beta waves, with higher synchronization for the face-to-face setting. Also, trainees seem more impacted by the delivery modality compared to the trainer. This work highlights the relevance of neurophysiological measures to test e-learning efficacy.
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