A discriminative spectral-temporal feature set for motor imagery classification

2017 IEEE International Workshop on Signal Processing Systems (SiPS) Pub Date : 2017-10-01 DOI:10.1109/SiPS.2017.8109970

W. Abbas, N. Khan

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引用次数: 9

Abstract

This paper presents a novel technique for motor imagery event classification. Extraction of discriminative feature is a key to accurate classification. To realize this objective we have explored the use of nonnegative matrix factorization (NNMF) for sparse representation of our input signal and determining the discriminative basis vector. We extract both spectral as well as temporal features from this representation to construct our features set. Band power has been shown to be a powerful discriminative feature of the spectral domain for motor imagery classes. Time Domain Parameter (TDP) taken as a temporal feature measures power of EEG using first few derivatives. Our approach is novel in proposing a fusion of both these features. We have used Hierarchical Alternating Least Square (HALS) as a convergence solution to minimize error function of NNMF as it converges more rapidly as compared to other methods. The proposed feature set has been tested using LDA and SVM classifiers technique for classification of 4-class motor imagery signals. We have compared our approach with others presented in literature using the Dataset 2a of BCI competition IV and has shown that our approach achieves the highest reported mean kappa value of 0.62 with the SVM classifier.

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一种用于运动图像分类的判别光谱-时间特征集

提出了一种新的运动意象事件分类方法。判别特征的提取是实现准确分类的关键。为了实现这一目标，我们探索了使用非负矩阵分解(NNMF)来稀疏表示输入信号并确定判别基向量。我们从这个表示中提取光谱和时间特征来构建我们的特征集。频带功率已被证明是一个强大的区分特征的频谱域运动图像类。时域参数(TDP)作为一种时间特征，利用前几阶导数来衡量脑电信号的功率。我们提出的融合这两种特性的方法是新颖的。我们使用层次交替最小二乘(HALS)作为收敛解来最小化NNMF的误差函数，因为它比其他方法收敛得更快。利用LDA和SVM分类器技术对所提出的特征集进行了测试，用于4类运动图像信号的分类。我们使用BCI竞赛IV的数据集2a将我们的方法与文献中提出的其他方法进行了比较，并表明我们的方法使用SVM分类器实现了最高的平均kappa值0.62。

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2017 IEEE International Workshop on Signal Processing Systems (SiPS)

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