Improving emotion detection through artificial intelligence from EEG brainwave signals

2022 International Conference on Artificial Intelligence of Things (ICAIoT) Pub Date : 2022-12-29 DOI:10.1109/ICAIoT57170.2022.10121827

Zaeem Ahmed, S. Shahid

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Abstract

The detection of human mental states has applications in a variety of fields, including healthcare, robotics, neurology, etc. Fundamental human emotion can be identified by facial expressions or bodily movements, but when we need to evaluate the emotions specifically and more precisely. Electroencephalogram (EEG) neuroimaging and other techniques are still in the early stages of detecting a range of emotions shown by individuals. With this brain wave analysis, we will be able to comprehend a respondent’s true feelings, even if they are trying to hide them. The purpose of this study was to use EEG brain wave signals for the detection of emotions and to classify them into three mental states relax, neutral, and concentrating with the help of different artificial intelligence models. The publicly available dataset of the Muse headband was used which was comprised of EEG brainwave signals from four EEG sensors (AF7, AF8, TP9, TP10). As evaluators, we used machine learning models such as Nave Bayes, Bayes Net, J48, Random Tree, and Random Forest, as well as feature selection methods: OneR, information gain, correlation, and symmetrical uncertainty. The overall accuracy of Random Forest was better (95.07%) as compared to other models.

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通过人工智能从脑电波信号中改进情绪检测

人类精神状态的检测在许多领域都有应用，包括医疗保健、机器人、神经学等。人类的基本情绪可以通过面部表情或身体动作来识别，但当我们需要更具体、更精确地评估情绪时。脑电图(EEG)、神经成像和其他技术在检测个体表现出的一系列情绪方面仍处于早期阶段。通过这种脑电波分析，我们将能够理解被调查者的真实感受，即使他们试图隐藏它们。本研究的目的是利用脑电图脑电波信号检测情绪，并借助不同的人工智能模型将情绪分为放松、中性和集中三种心理状态。使用公开的Muse头带数据集，该数据集由4个EEG传感器(AF7、AF8、TP9、TP10)的脑电波信号组成。作为评估者，我们使用了机器学习模型，如Nave Bayes, Bayes Net, J48, Random Tree和Random Forest，以及特征选择方法:OneR，信息增益，相关性和对称不确定性。与其他模型相比，Random Forest的整体准确率(95.07%)更好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 International Conference on Artificial Intelligence of Things (ICAIoT)

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