单次试验有效脑连接模式可提高心理意象任务的可辨别性。

Single-trial effective brain connectivity patterns enhance discriminability of mental imagery tasks.

机构信息

Intelligent Systems Research Centre, School of Computing and Intelligent Systems, Ulster University, Derry-Londonderry, United Kingdom.

出版信息

J Neural Eng. 2017 Oct;14(5):056005. doi: 10.1088/1741-2552/aa785c. Epub 2017 Jun 9.

DOI:10.1088/1741-2552/aa785c

PMID:28597846

Abstract

OBJECTIVE

The majority of the current approaches of connectivity based brain-computer interface (BCI) systems focus on distinguishing between different motor imagery (MI) tasks. Brain regions associated with MI are anatomically close to each other, hence these BCI systems suffer from low performances. Our objective is to introduce single-trial connectivity feature based BCI system for cognition imagery (CI) based tasks wherein the associated brain regions are located relatively far away as compared to those for MI.

APPROACH

We implemented time-domain partial Granger causality (PGC) for the estimation of the connectivity features in a BCI setting. The proposed hypothesis has been verified with two publically available datasets involving MI and CI tasks.

MAIN RESULTS

The results support the conclusion that connectivity based features can provide a better performance than a classical signal processing framework based on bandpass features coupled with spatial filtering for CI tasks, including word generation, subtraction, and spatial navigation. These results show for the first time that connectivity features can provide a reliable performance for imagery-based BCI system.

SIGNIFICANCE

We show that single-trial connectivity features for mixed imagery tasks (i.e. combination of CI and MI) can outperform the features obtained by current state-of-the-art method and hence can be successfully applied for BCI applications.

摘要

目的

目前大多数基于连通性的脑机接口（BCI）系统方法都侧重于区分不同的运动想象（MI）任务。与 MI 相关的大脑区域在解剖上彼此靠近，因此这些 BCI 系统的性能较低。我们的目标是引入基于单试连通性特征的 BCI 系统，用于认知想象（CI）任务，其中相关的大脑区域的位置与 MI 相比相对较远。

方法

我们在 BCI 环境中实现了时域部分格兰杰因果关系（PGC）来估计连通性特征。该假设已通过两个涉及 MI 和 CI 任务的公开可用数据集得到验证。

主要结果

结果支持这样的结论，即与基于带通特征结合空间滤波的经典信号处理框架相比，基于连通性的特征可以为 CI 任务（包括单词生成、减法和空间导航）提供更好的性能。这些结果首次表明，连通性特征可为基于想象的 BCI 系统提供可靠的性能。

意义

我们表明，混合想象任务（即 CI 和 MI 的组合）的单试连通性特征可以优于当前最先进方法获得的特征，因此可以成功应用于 BCI 应用。

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单次试验有效脑连接模式可提高心理意象任务的可辨别性。

Single-trial effective brain connectivity patterns enhance discriminability of mental imagery tasks.

机构信息

出版信息

OBJECTIVE

APPROACH

MAIN RESULTS

SIGNIFICANCE

目的

方法

主要结果

意义

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