A Navigation Learning Assessment Method Using EEG-based Multi-Time Scale Spatiotemporal Compound Model.pdf (1.9 MB)

Navigation Learning Assessment Using EEG-based Multi-Time Scale Spatiotemporal Compound Model

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posted on 2023-03-06, 16:58 authored by Lingling Wang, Yixin LiuYixin Liu, Yiqing Li, Renxiang Chen, Xiaohong Liu, Li Fu, Yao Wang

 This study presents a novel method to assess the learning effectiveness using Electroencephalography (EEG)-based Multi-Time Scale Spatiotemporal Compound Model (MTSC). Due to the evaluation of navigation learning, which is centered on the practice innovation ability devel?opment, it is difficult to assess the learning effectiveness in cultivating students’ ability objectively by questionnaire or other assessment methods. Research in the field of brain science has shown that innovation ability can be reflected from cognitive ability which can be embodied by EEG signal features. Therefore, a navigation learning assessment method was applied to detect the cognitive training traces by EEG-based MTSC. To verify the validity of the method, three navigation missions with increasing cog?nitive difficulty were designed, and 41 participants attended the experiment. The features of participants’ EEG signals were extracted and classified by MTSC. Comparing the results between experimental group and control group, it can be seen that MTSC can effectively distinguish the cog?nitive training traces of students in the navigation problem?solving process. In addition, MTSC achieved 89.2% accu?racy and 0.883 F1-Score on features classification, which had an average improvement of 15.7% over other three tra?ditional EEG classification models in accuracy. The results indicate that the navigation learning assessment method provides a useful evaluation approach for learning effec?tiveness using EEG-based MTSC. 


National Natural Science Foundation of China

Beihang Virtual Simulation First-class Course Project

Beihang Graduate Education and Development Research Special Fund


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Beihang University

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  • China