Signal Processing and Information Systems Laboratory, Sabanci University, Orhanli, Tuzla, 34956 Istanbul, Turkey.
J Neural Eng. 2012 Apr;9(2):026020. doi: 10.1088/1741-2560/9/2/026020. Epub 2012 Mar 14.
We consider the problem of classification of imaginary motor tasks from electroencephalography (EEG) data for brain-computer interfaces (BCIs) and propose a new approach based on hidden conditional random fields (HCRFs). HCRFs are discriminative graphical models that are attractive for this problem because they (1) exploit the temporal structure of EEG; (2) include latent variables that can be used to model different brain states in the signal; and (3) involve learned statistical models matched to the classification task, avoiding some of the limitations of generative models. Our approach involves spatial filtering of the EEG signals and estimation of power spectra based on autoregressive modeling of temporal segments of the EEG signals. Given this time-frequency representation, we select certain frequency bands that are known to be associated with execution of motor tasks. These selected features constitute the data that are fed to the HCRF, parameters of which are learned from training data. Inference algorithms on the HCRFs are used for the classification of motor tasks. We experimentally compare this approach to the best performing methods in BCI competition IV as well as a number of more recent methods and observe that our proposed method yields better classification accuracy.
我们考虑从脑机接口 (BCI) 的脑电图 (EEG) 数据中对想象运动任务进行分类的问题,并提出了一种新的基于隐藏条件随机场 (HCRF) 的方法。HCRF 是一种有判别力的图形模型,对于这个问题很有吸引力,因为它们 (1) 利用 EEG 的时间结构;(2) 包含潜在变量,可以用于对信号中的不同大脑状态进行建模;(3) 涉及到与分类任务匹配的学习统计模型,避免了生成模型的一些局限性。我们的方法涉及到 EEG 信号的空间滤波和基于 EEG 信号时间片段的自回归建模的功率谱估计。有了这个时频表示,我们选择了一些已知与运动任务执行相关的特定频带。这些选定的特征构成了被馈送到 HCRF 的数据,HCRF 的参数是从训练数据中学习得到的。我们在 HCRF 上使用推理算法对运动任务进行分类。我们将这种方法与 BCI 竞赛 IV 中表现最好的方法以及一些更新的方法进行了实验比较,观察到我们提出的方法产生了更高的分类准确率。
