An EEG-driven brain-computer interface combined with functional magnetic resonance imaging (fMRI)

Hinterberger T.; Weiskopf N.; Veit R.; Wilhelm B.; Betta E.; Birbaumer N.

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An EEG-driven brain-computer interface combined with functional magnetic resonance imaging (fMRI)

机译：脑电驱动的脑机接口结合功能磁共振成像（fMRI）

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Self-regulation of slow cortical potentials (SCPs) has been successfully used to prevent epileptic seizures as well as to communicate with completely paralyzed patients. The thought translation device (TTD) is a brain-computer interface (BCI) that was developed for training and application of SCP self-regulation. To investigate the neurophysiological mechanisms of SCP regulation the TTD was combined with functional magnetic resonance imaging (fMRI). The technical aspects and pitfalls of combined fMRI data acquisition and EEG neurofeedback are discussed. First data of SCP feedback during fMRI are presented.

机译：慢皮质电位（SCP）的自我调节已成功用于预防癫痫发作以及与完全瘫痪的患者进行沟通。思想翻译设备（TTD）是为培训和应用SCP自我调节而开发的脑机接口（BCI）。为了研究SCP调控的神经生理机制，将TTD与功能磁共振成像（fMRI）相结合。讨论了组合fMRI数据采集和EEG神经反馈的技术方面和陷阱。呈现了功能磁共振成像期间SCP反馈的第一数据。

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《IEEE Transactions on Biomedical Engineering》 |2004年第6期|p.971-974|共4页
作者
Hinterberger T.; Weiskopf N.; Veit R.; Wilhelm B.; Betta E.; Birbaumer N.;
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正文语种 eng
中图分类无线电电子学、电信技术;
关键词
bioelectric potentials; biological techniques; biomedical MRI; electroencephalography; feedback; handicapped aids; medical computing; neurophysiology; EEG neurofeedback; EEG-driven brain-computer interface; completely paralyzed patients; epileptic seizures; function;

机译：生物电势;生物学技术;生物医学MRI;脑电图;反馈;残疾人辅助用具;医学计算;神经生理学;EEG神经反馈;EEG驱动的脑机接口;完全瘫痪的病人;癫痫发作;功能;

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An EEG-driven brain-computer interface combined with functional magnetic resonance imaging (fMRI)

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