Classification of multichannel EEG data using length/energy transforms

1st IEEE International Workshop on Computational Advances in Multi-Sensor Adaptive Processing, 2005. Pub Date : 2005-12-13 DOI:10.1109/CAMAP.2005.1574224

David Gutiérrez, Fabián Garcı́a-Nocetti, Julio Solano-González

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引用次数: 8

Abstract

We propose the use of length and energy transforms in the classification of multichannel EEG data to identify different cognitive activity using a reduced set of recording electrodes. The length transform (ET) represents a temporarily smoothed time course of the data, while the energy transform (ET) can be interpreted as a short-term energy estimate. The transformation of the data in the length/energy domain allows to effectively preserving important data features when autoregressive (AR) models are used to reduce the dimension of the classification problem. We evaluate the performance of the ET and ET on the classification of real cognitive EEG data for the case when the optimal AR model is selected under the Schwarz's Bayesian criterion (SBC) and a Mahalanobis distance-based classifier is used. Our results show that accurate classification is achieved when the data is transformed through the ET or ET even for low-order AR models, having the ET slightly better performance

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基于长度/能量变换的多通道脑电数据分类

我们提出在多通道EEG数据分类中使用长度和能量变换来识别不同的认知活动，使用一组简化的记录电极。长度变换(ET)表示数据暂时平滑的时间过程，而能量变换(ET)可以解释为短期能量估计。当使用自回归(AR)模型对分类问题进行降维处理时，数据在长度/能量域中的转换可以有效地保留重要的数据特征。在Schwarz贝叶斯准则(SBC)下选择最优AR模型并使用基于马氏距离的分类器的情况下，我们评估了ET和ET对真实认知脑电数据分类的性能。我们的研究结果表明，即使对于低阶AR模型，通过ET或ET变换数据也能实现准确的分类，ET的性能略好

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1st IEEE International Workshop on Computational Advances in Multi-Sensor Adaptive Processing, 2005.

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