利用堆叠自动编码器提取特征,减少情绪识别中的脑电图通道

IF 1 Q4 NEUROSCIENCES Basic and Clinical Neuroscience Pub Date : 2024-05-01 DOI:10.32598/bcn.2023.5138.2
Elnaz Vafaei, Fereidoun Nowshiravan Rahatabad, Seyed Kamaledin Setarehdan, Parviz Azadfallah
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引用次数: 0

摘要

简介通过脑电图(EEG)信号进行情绪识别是一种复杂的方法,因为提取和识别隐藏在信号中的特征非常复杂,需要大量的脑电图通道。提出一种特征分析方法和减少脑电图通道数量的算法满足了这一领域的研究需求:因此,本研究探讨了在保持脑电信号质量的同时利用深度学习减少通道数量的可能性。堆叠式自动编码器网络可为情绪分类提取情绪和唤醒维度的最佳特征。自动编码器网络可以提取复杂的特征,以提供线性和非线性特征,从而很好地代表信号:结果:使用从 SAE 提取的特征,传统的情绪识别分类器(支持向量机)在情感维度和唤醒维度上的准确率分别为 75.7%和 74.4%:进一步的分析还表明,与唤醒维度相比,使用减少的脑电图通道进行情价维度检测的脑电图通道组成不同。此外,通道数量也从 32 个减少到 12 个,这对于应用这些最佳特征设计小型脑电图设备是一个极好的发展。
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Feature Extraction With Stacked Autoencoders for EEG Channel Reduction in Emotion Recognition.

Introduction: Emotion recognition by electroencephalogram (EEG) signals is one of the complex methods because the extraction and recognition of the features hidden in the signal are sophisticated and require a significant number of EEG channels. Presenting a method for feature analysis and an algorithm for reducing the number of EEG channels fulfills the need for research in this field.

Methods: Accordingly, this study investigates the possibility of utilizing deep learning to reduce the number of channels while maintaining the quality of the EEG signal. A stacked autoencoder network extracts optimal features for emotion classification in valence and arousal dimensions. Autoencoder networks can extract complex features to provide linear and non- linear features which are a good representative of the signal.

Results: The accuracy of a conventional emotion recognition classifier (support vector machine) using features extracted from SAEs was obtained at 75.7% for valence and 74.4% for arousal dimensions, respectively.

Conclusion: Further analysis also illustrates that valence dimension detection with reduced EEG channels has a different composition of EEG channels compared to the arousal dimension. In addition, the number of channels is reduced from 32 to 12, which is an excellent development for designing a small-size EEG device by applying these optimal features.

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来源期刊
CiteScore
2.60
自引率
0.00%
发文量
64
审稿时长
4 weeks
期刊介绍: BCN is an international multidisciplinary journal that publishes editorials, original full-length research articles, short communications, reviews, methodological papers, commentaries, perspectives and “news and reports” in the broad fields of developmental, molecular, cellular, system, computational, behavioral, cognitive, and clinical neuroscience. No area in the neural related sciences is excluded from consideration, although priority is given to studies that provide applied insights into the functioning of the nervous system. BCN aims to advance our understanding of organization and function of the nervous system in health and disease, thereby improving the diagnosis and treatment of neural-related disorders. Manuscripts submitted to BCN should describe novel results generated by experiments that were guided by clearly defined aims or hypotheses. BCN aims to provide serious ties in interdisciplinary communication, accessibility to a broad readership inside Iran and the region and also in all other international academic sites, effective peer review process, and independence from all possible non-scientific interests. BCN also tries to empower national, regional and international collaborative networks in the field of neuroscience in Iran, Middle East, Central Asia and North Africa and to be the voice of the Iranian and regional neuroscience community in the world of neuroscientists. In this way, the journal encourages submission of editorials, review papers, commentaries, methodological notes and perspectives that address this scope.
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