在基于瞬态视觉诱发电位的脑机接口研究中,通过视觉诱发电位信号的提取与识别产生脑机接口控制信号。
In the research of the transient visual evoked potential (VEP) based brain-computer interface (BCI), VEP signal extraction and recognition are essential for obtaining BCI control signal.
介绍了脑-机接口的实验研究方法及关键技术的研究进展,并对未来实用型脑-机接口的研究进行展望。
Experimental methods and some key techniques of brain-computer interface (BCI) are introduced in this paper. The further discussion is mainly focused on the research of practical BCIs.
寻找新的脑-机接口模式使之能显著提升记录脑电信号中的内源性与外源性成分在脑-机接口研究中具有重要意义。
Seeking for new BCI modalities, which can significant enhance both endogenous and exogenous components in recorded EEG signals is of great importance in BCI system development.
通过实验证明了,这套系统可以方便的实现离线的基于视觉刺激的脑机接口实验,以及在其他设备辅助下完成在线的脑机接口实验。
With a series of experiments, it is proved that using the system can realize an off-line BCI based on visual stimulus easily, and on-line BCIs with other apparatuses' help are possible.
通过实验证明了,这套系统可以方便的实现离线的基于视觉刺激的脑机接口实验,以及在其他设备辅助下完成在线的脑机接口实验。
With a series of experiments, it is proved that using the system can realize an off-line BCI based on visual stimulus easily, and on-line BCIs with other apparatuses' help are possible.
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