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基于SAE和GNDO-SVM的脑电信号情绪识别

Emotion Recognition of EEG Signals Based on SAE and GNDO-SVM
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摘要 情感计算是现代人机交互中的关键问题,随着人工智能的发展,基于脑电信号(electroencephalogram, EEG)的情绪识别已经成为重要的研究方向.为了提高情绪识别的分类精度,本研究引入堆叠自动编码器(stacked autoencoder, SAE)对EEG多通道信号进行深度特征提取,并提出一种基于广义正态分布优化的支持向量机(generalized normal distribution optimization based support vector machine, GNDO-SVM)情绪识别模型.实验结果表明,与基于遗传算法、粒子群算法和麻雀搜索算法优化的支持向量机模型相比,所提出的GNDO-SVM模型具有更优的分类性能,基于SAE深度特征的情感识别准确率达到了90.94%,表明SAE能够有效地挖掘EEG信号不同通道间的深度相关性信息.因此,利用SAE深度特征结合GNDO-SVM模型可以有效地实现EEG信号的情绪识别. Affective computing is a key problem in modern human-computer interaction,and with the development of artificial intelligence,emotion recognition based on electroencephalogram(EEG)has become an important research direction.To improve the classification accuracy of emotion recognition,this study introduces stacked auto-encoder(SAE)to extract the deep feature of EEG multichannel signals and then proposes a generalized normal distribution optimization based support vector machine(GNDO-SVM).The experimental results show that the proposed GNDO-SVM model has better classification performance than the support vector machine model optimized by genetic algorithm,particle swarm optimization algorithm,and sparrow search algorithm.The accuracy of emotion recognition based on SAE depth features reaches 90.94%,indicating that SAE can effectively exploit the depth correlation information between different channels of EEG signals.Therefore,applying SAE depth feature extraction combined with the GNDO-SVM classification model can effectively achieve the emotion recognition of EEG signals.
作者 陈晨 任南 CHEN Chen;REN Nan(College of Economics and Management,Jiangsu University of Science and Technology,Zhenjiang 212100,China)
出处 《计算机系统应用》 2023年第10期284-292,共9页 Computer Systems & Applications
关键词 脑电信号 情绪识别 深度特征 堆叠自动编码器 广义正态分布优化 支持向量机 electroencephalogram(EEG) emotion recognition deep feature stacked auto-encoder(SAE) generalized normal distribution optimization(GNDO) support vector machine(SVM)
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  • 1陈振洲,李磊,姚正安.基于SVM的特征加权KNN算法[J].中山大学学报(自然科学版),2005,44(1):17-20. 被引量:51
  • 2罗跃嘉,黄宇霞,李新影,李雪冰.情绪对认知加工的影响:事件相关脑电位系列研究[J].心理科学进展,2006,14(4):505-510. 被引量:75
  • 3刘晓旻,谭华春,章毓晋.人脸表情识别研究的新进展[J].中国图象图形学报,2006,11(10):1359-1368. 被引量:62
  • 4刘玉娟,方富熹.情绪的语音交流[J].中国行为医学科学,2007,16(4):374-376. 被引量:4
  • 5胡广书.数字信号处理[M].北京:清华大学出版社,2007.
  • 6James W. What is an emotion [J]. Mind, 1884, 9(34) : 188 - 205.
  • 7Lange CG. The emotions: a psychophysiological study [ J ]. The emotions, 1885, 33 - 90.
  • 8Cannon W. The James-Lunge theory of emotions: a critical examination and an alternative theory [ J]. American Journal of Psychology, 1927, 39:106 - 124.
  • 9James W, Papez MD, A proposed mechanism of emotion [ J]. Arch Neural Psychiatry, 1937, 38(4) : 725 -743.
  • 10Paul D, Maclean MD. Psychosomatic disease and the " Visceral Brain"-recent developments bearing on the Papez theory of emotion [ J]. Psychosomatic Medicine, 1949, 11:338-353.

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