Electroencephalogram-based deep learning framework for the proposed solution of e-learning challenges and limitations

Q3 Computer Science International Journal of Intelligent Information and Database Systems Pub Date : 2022-01-01 DOI:10.1504/ijiids.2021.10041828

Dharmendra Pathak, R. Kashyap

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引用次数: 1

Abstract

There is a high surge in usage of online e-learning platforms due to the current ongoing COVID-19 scenario. There are specific problems that persist in the current e-learning online models, i.e., validations and tracking of students’ learning curves, validation of presented course material, content-based personalisation as per the requirements of the students, identification of learning disabilities among students, etc. Our paper proposes the deep learning model to solve the issues related to existing machine learning models of manual feature extraction and training on limited data. Also, real-time e-learning data will be collected from students wearing EEG-headband while taking online classes. It solves the issues associated with conventional machine learning models and historical data. The proposed CNN model will classify the students on different grades and help in the development of an automated framework for the tracking of a student learning curve, providing recommendations for the betterment of e-learning course materials. Copyright © 2022 Inderscience Enterprises Ltd.

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提出了基于脑电图的深度学习框架解决电子学习的挑战和局限性

由于目前正在进行的COVID-19情景，在线电子学习平台的使用量激增。目前的电子学习在线模式存在一些具体的问题，如学生学习曲线的验证和跟踪、所呈现的课程材料的验证、根据学生的需求进行基于内容的个性化、学生学习障碍的识别等。本文提出了深度学习模型来解决现有机器学习模型在有限数据上进行人工特征提取和训练的问题。此外，将从戴着脑电图头带的学生在线上课时收集实时电子学习数据。它解决了传统机器学习模型和历史数据相关的问题。提出的CNN模型将对不同年级的学生进行分类，并帮助开发跟踪学生学习曲线的自动化框架，为改进电子学习课程材料提供建议。版权所有©2022 Inderscience Enterprises Ltd。

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来源期刊

International Journal of Intelligent Information and Database Systems Computer Science-Information Systems

CiteScore

2.90

自引率

0.00%

发文量

期刊介绍： Intelligent information systems and intelligent database systems are a very dynamically developing field in computer sciences. IJIIDS provides a medium for exchanging scientific research and technological achievements accomplished by the international community. It focuses on research in applications of advanced intelligent technologies for data storing and processing in a wide-ranging context. The issues addressed by IJIIDS involve solutions of real-life problems, in which it is necessary to apply intelligent technologies for achieving effective results. The emphasis of the reported work is on new and original research and technological developments rather than reports on the application of existing technology to different sets of data.