ECE Dept., University of Denver, Denver, CO, USA.
ECE Dept., University of Denver, Denver, CO, USA; Colorado Neurological Institute (CNI), Denver, CO, USA.
J Neurosci Methods. 2018 Jan 1;293:254-263. doi: 10.1016/j.jneumeth.2017.10.001. Epub 2017 Oct 7.
Classification of human behavior from brain signals has potential application in developing closed-loop deep brain stimulation (DBS) systems. This paper presents a human behavior classification using local field potential (LFP) signals recorded from subthalamic nuclei (STN).
A hierarchical classification structure is developed to perform the behavior classification from LFP signals through a multi-level framework (coarse to fine). At each level, the time-frequency representations of all six signals from the DBS leads are combined through an MKL-based SVM classifier to classify five tasks (speech, finger movement, mouth movement, arm movement, and random segments). To lower the computational cost, we alternatively use the inter-hemispheric synchronization of the LFPs to make three pairs out of six bipolar signals. Three classifiers are separately trained at each level of the hierarchical approach, which lead to three labels. A fusion function is then developed to combine these three labels and determine the label of the corresponding trial.
Using all six LFPs with the proposed hierarchical approach improves the classification performance. Moreover, the synchronization-based method reduces the computational burden considerably while the classification performance remains relatively unchanged.
Our experiments on two different datasets recorded from nine subjects undergoing DBS surgery show that the proposed approaches remarkably outperform other methods for behavior classification based on LFP signals.
The LFP signals acquired from STNs contain useful information for recognizing human behavior. This can be a precursor for designing the next generation of closed-loop DBS systems.
从脑信号对人类行为进行分类在开发闭环深部脑刺激 (DBS) 系统方面具有潜在的应用。本文提出了一种使用记录自丘脑底核 (STN) 的局部场电位 (LFP) 信号的人类行为分类方法。
通过多层次框架(从粗到细)开发了一种分层分类结构,通过一个多水平框架来实现从 LFP 信号进行行为分类。在每个级别,通过基于 MKL 的 SVM 分类器将来自 DBS 导联的所有六个信号的时频表示组合起来,以对五个任务(言语、手指运动、口腔运动、手臂运动和随机段)进行分类。为了降低计算成本,我们可以交替使用 LFPs 的半球间同步,从六个双极信号中生成三个对。在分层方法的每个级别分别训练三个分类器,从而得到三个标签。然后开发一个融合函数来组合这三个标签并确定相应试验的标签。
使用所提出的分层方法的所有六个 LFP 可以提高分类性能。此外,基于同步的方法大大降低了计算负担,而分类性能保持相对不变。
我们在两个不同的数据集上进行的实验记录了九个接受 DBS 手术的患者,结果表明,所提出的方法在基于 LFP 信号的行为分类方面明显优于其他方法。
从 STNs 获得的 LFP 信号包含识别人类行为的有用信息。这可能是设计下一代闭环 DBS 系统的前兆。
