计算机技术与发展2024,Vol.34Issue(5):109-116,8.DOI:10.20165/j.cnki.ISSN1673-629X.2024.0048
基于改进的GAF算法的EEG情感识别
Emotion Recognition of EEG Signals Based on Improved GAF Algorithm
摘要
Abstract
Human emotion recognition using electroencephalography(EEG)signals is an important and challenging research area.The traditional method is to analyze the one-dimensional EEG signal,and then extract features for identification.But this method needs to extract many features in time domain and frequency domain to achieve better identification effect.Considering that the information contained in two-dimensional images is much richer than that contained in one-dimensional signals,converting one-dimensional signals into two-dimensional images can extract more effective features for recognition.We propose an EEG emotion recognition method based on an improved Gramian Angular Field(GAF)algorithm.First,the sub-band signals of alpha,beta,and gama are extracted from the EEG signal.Then,an improved GAF algorithm based on Mahalanobis distance weighting is proposed to convert the one-dimensional EEG signal into a two-dimensional featured images,and features such as singular value entropy and graph energy are extracted from the two-dimensional featured images.Finally,convolutional neural network(CNN)is used to classify the extracted EEG features.Based on the widely used DEAP dataset,the model is validated for the four-class(HAHV,LAHV,LALV,and HALV)emotion recognition task.The experimental results show that the average classification accuracy of the proposed algorithm reaches 92.63%,which has certain advantages compared with the existing recognition methods.关键词
脑电图/情感识别/格拉姆角场/马氏距离/卷积神经网络Key words
electroencephalography(EEG)/emotion recognition/Gramian angular field(GAF)/Mahalanobis distance/convolutional neural network(CNN)分类
信息技术与安全科学引用本文复制引用
王星星,邵杰,陈鑫,杨世逸林,杨鑫..基于改进的GAF算法的EEG情感识别[J].计算机技术与发展,2024,34(5):109-116,8.基金项目
教育部重点实验室开放基金(USAP2001) (USAP2001)
