Electroencephalograph Emotion Classification Using a Novel Adaptive Ensemble Classifier Considering Personality Traits

Mohammad Saleh Khajeh Hosseini, Mohammad Pourmir Firoozabadi, Kambiz Badie, Parviz Azad Fallah
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Abstract

Introduction: The study explores the use of Electroencephalograph (EEG) signals as a means to uncover various states of the human brain, with a specific focus on emotion classification. Despite the potential of EEG signals in this domain, existing methods face challenges. Features extracted from EEG signals may not accurately represent an individual's emotional patterns due to interference from time-varying factors and noise. Additionally, higher-level cognitive factors, such as personality, mood, and past experiences, further complicate emotion recognition. The dynamic nature of EEG data in terms of time series introduces variability in feature distribution and interclass discrimination across different time stages. Methods: To address these challenges, the paper proposes a novel adaptive ensemble classification method. The study introduces a new method for providing emotional stimuli, categorizing them into three groups (sadness, neutral, and happiness) based on their valence-arousal (VA) scores. The experiment involved 60 participants aged 19–30 years, and the proposed method aimed to mitigate the limitations associated with conventional classifiers. Results: The results demonstrate a significant improvement in the performance of emotion classifiers compared to conventional methods. The classification accuracy achieved by the proposed adaptive ensemble classification method is reported at 87.96%. This suggests a promising advancement in the ability to accurately classify emotions using EEG signals, overcoming the limitations outlined in the introduction. Conclusion: In conclusion, the paper introduces an innovative approach to emotion classification based on EEG signals, addressing key challenges associated with existing methods. By employing a new adaptive ensemble classification method and refining the process of providing emotional stimuli, the study achieves a noteworthy improvement in classification accuracy. This advancement is crucial for enhancing our understanding of the complexities of emotion recognition through EEG signals, paving the way for more effective applications in fields such as neuroinformatics and affective computing.
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使用考虑人格特质的新型自适应集合分类器进行脑电图情绪分类
简介本研究探讨了如何利用脑电图(EEG)信号来揭示人脑的各种状态,尤其侧重于情绪分类。尽管脑电信号在这一领域具有潜力,但现有方法仍面临挑战。由于时变因素和噪声的干扰,从脑电图信号中提取的特征可能无法准确地代表个人的情绪模式。此外,更高层次的认知因素,如个性、情绪和过去的经历,也会使情绪识别变得更加复杂。就时间序列而言,脑电图数据的动态性质会导致不同时间阶段的特征分布和类间辨别出现差异。方法为了应对这些挑战,本文提出了一种新颖的自适应集合分类方法。该研究引入了一种提供情绪刺激的新方法,根据情绪唤醒(VA)得分将情绪刺激分为三类(悲伤、中性和快乐)。实验涉及 60 名 19-30 岁的参与者,所提出的方法旨在减轻传统分类器的相关局限性。实验结果结果表明,与传统方法相比,情绪分类器的性能有了显著提高。据报告,所提出的自适应集合分类方法的分类准确率为 87.96%。这表明,利用脑电信号对情绪进行准确分类的能力有了可喜的进步,克服了导言中概述的局限性。结论总之,本文介绍了一种基于脑电信号的创新情绪分类方法,解决了与现有方法相关的主要挑战。通过采用新的自适应集合分类方法和改进提供情绪刺激的过程,该研究显著提高了分类准确性。这一进步对于加深我们对通过脑电信号进行情绪识别的复杂性的理解至关重要,从而为神经信息学和情感计算等领域更有效的应用铺平了道路。
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