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研究脑电图/脑磁图神经振荡的新计算和记录技术

Novel Computational and Recording Techniques for Studying Neuronal Oscillations Acquired with EEG/MEG
课程网址: http://videolectures.net/bbci2012_nikulin_neuronal_oscillations/  
主讲教师: Vadim Nikulin
开课单位: 柏林大学
开课时间: 2012-12-03
课程语种: 英语
中文简介:
在演讲的第一部分,我将介绍一种新型的脑电图电极。目前主流的脑电图电极装置在BCI研究中允许有效的记录,但往往是笨重和不适的对象。最近,我们介绍了一种新型的脑电图电极,它被设计为最优的佩戴舒适性。这种新型电极不被受试者感觉到,因此脑电图记录以最方便的方式进行。此外,电极对于外部观察者来说几乎是不可见的。这一点尤其重要,尤其是当佩戴脑电图电极的人或使用脑电图电极观察对象的人可能引起不适/不必要的注意时。在演讲的第二部分,我将提出一种提取神经元振荡的新算法。神经振荡已被证明是脑内各种认知、知觉和运动功能的基础,其振幅反应活性在脑ci研究中被广泛使用。然而,由于脑电图/脑磁图记录来自多个来源的大量活动重叠,同时也由于强背景噪声,研究这些振荡是出了名的困难。我将提出一种从多通道脑电图/MEG/LFP记录中可靠快速提取神经元振荡的新方法。该方法基于记录的线性分解:它在峰值频率上最大化信号功率,同时在邻近的频率箱周围最小化信号功率。这样的程序可以优化信噪比,并允许提取具有“峰值”特征的组件。谱线,这是振荡过程的典型特征。我们将这种方法称为空间光谱分解(SSD)。该方法具有较高的准确度和速度,可作为提取多通道电生理记录中神经元振荡的一种可靠方法。
课程简介: In the first part of the talk I will present a new type of EEG electrodes. Current mainstream EEG electrode setups in BCI research permit efficient recordings, but are often bulky and uncomfortable for subjects. Recently we introduced a novel type of EEG electrode, which is designed for an optimal wearing comfort. This novel electrode is not felt by the subject and therefore recordings of EEG are performed in a most convenient way. Moreover, the electrode is close to invisible to an external observer. This is important especially for the situations when discomfort/unnecessary attention can be aroused either in the person wearing EEG electrodes or in persons who observe a subject with EEG electrodes. In the second part of the talk I will present a novel algorithm for the extraction of neuronal oscillations. Neuronal oscillations have been shown to underlie various cognitive, perceptual and motor functions in the brain and their amplitude reactivity is used commonly in BCI research. However, studying these oscillations is notoriously difficult with EEG/MEG recordings due to a massive overlap of activity from multiple sources and also due to the strong background noise. I will present a novel method for the reliable and fast extraction of neuronal oscillations from multi-channel EEG/MEG/LFP recordings. The method is based on a linear decomposition of recordings: it maximizes the signal power at a peak frequency while simultaneously minimizing it at the neighboring, surrounding frequency bins. Such procedure leads to the optimization of signal-to-noise ratio and allows extraction of components with a characteristic "peaky" spectral profile, which is typical for oscillatory processes. We refer to this method as spatio-spectral decomposition (SSD). Due to the high accuracy and speed, we suggest that SSD can be used as a reliable method for the extraction of neuronal oscillations from multi-channel electrophysiological recordings.
关 键 词: 脑电图电极; 提取神经元振荡的新算法; 多通道脑电图
课程来源: 视频讲座网
最后编审: 2020-07-31:yumf
阅读次数: 63

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