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引用次数: 9
摘要
脑机接口(BCI)是将采集到的脑电图(EEG)等脑信号直接转换为控制外部设备的命令的系统。在基于运动图像的脑机接口应用中,最成功的方法之一是公共空间方法(CSP)。在现有的基于CSP的方法中,将整个脑电信号作为一个时间段提取空间滤波器。在这项研究中,我们使用了ERD/ERS事件不随时间稳定的事实。这意味着脑电通道的重要性在不同的时间段有所不同。因此,我们将脑电信号分成若干个时间段。然后利用CSP算法从每个时间段提取特征向量。我们使用OVR (one - vs -the Rest)算法将四类问题分解为两类问题。MI的四个类别是左手、右手、脚和舌头。我们使用BCI竞赛IV的数据集2a来评估我们的方法。实验结果表明,该方法优于CSP和BCI竞争IV的最佳竞争者。实际上,所提出的时间窗方法降低了噪声和异常值对提取特征的影响。
Temporal windowing in CSP method for multi-class Motor Imagery Classification
Brain Computer Interface (BCI) is a system which straightly converts the acquired brain signals such as Electroencephalogram (EEG) to commands for controlling external devices. One of the most successful methods in Motor Imagery based BCI applications is Common Spatial method (CSP). In existing methods based on CSP, the spatial filters are extracted from the whole EEG signal as one time segment. In this study we use the fact that ERD/ERS events are not steady over time. This means that the importance of EEG channels vary for different time segments. Therefore we divide EEG signals into a number of time segments. Then we extract a feature vector from each time segment using CSP. We use OVR (One-Versus-the Rest) algorithm to break four classes problem into two classes problems. The considered four classes MI are left hand, right hand, foot and tongue. We used dataset 2a of BCI competition IV to evaluate our method. The result of experiment shows that this method outperforms both CSP and the best competitor of the BCI competition IV. In fact the effect of noise and outliers on extracted features is reduced by the proposed time windowing method.
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