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引用次数: 2

摘要

脑磁图(MEG)可以作为脑机(BCI)的控制信号,其中包含了手部运动方向的模式信息。在脑磁图信号分类中,通常采用基于信号处理的特征提取和线性分类。识别率一直难以提高。提出了主成分分析(PCA)和线性判别分析(LDA)方法进行特征提取,并引入非线性最近邻分类器进行分类。在分析混淆矩阵的基础上,研究了非线性最近邻分类器的数据依赖核优化,其效果优于非线性最近邻分类器。实验结果表明,PCA + LDA方法对多通道脑磁图信号的分析是有效的,提高了识别率。平均识别率优于BCI比赛IV的识别率。
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The nonlinear classification methods in MEG-based brain computer interface
The Magnetoencephalography (MEG) can be used as a control signal for brain computer (BCI), which contains the pattern information of the hand movement direction. In the MEG signal classification, the feature extraction based on signal processing and linear classification are usually used. The recognition rate has been difficult to improve. The principal component analysis (PCA) and linear discriminant analysis (LDA) method has been proposed for the feature extraction, and the non-linear nearest neighbor classification is introduced for the classifier. Based on the analysis of the confusion matrix, a data-dependent kernel optimization also studied for the nonlinear nearest neighbor classifier, which effect is better than the non-linear nearest neighbor classifier. The experimental results show that the PCA + LDA method is effective in the analysis of multi-channel MEG signals, and improve the recognition rate. The average recognition rate is better than the recognition rate in the BCI competition IV.
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