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A motion-artifact tracking and compensation technique for dry-contact EEG monitoring system

机译：干接触式脑电图监测系统的运动伪影跟踪与补偿技术

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摘要

A digital online technique for motion artifact (MA) tracking and compensation is reported for electroencephalogram (EEG) monitoring using dry-contact electrodes. A safe, low-level pseudorandom noise (PN) signal is driven to the body through a reference electrode as a test signal to measure the bio-potential acquisition-path gain (APG) of the electrode-tissue interface (ETI). The measurement result is then utilized by a digital-domain gain compensator to act in the opposite way to the MA-induced APG variation, thereby compensating the multiplicative motion artifact (MMA) in real time. The remaining baseline wander or additive motion artifact (AMA) is treated by a digital high-pass filter (HPF). The interference of the test signal to the EEG signal acquisition is negligible in this technique due to the nearly white spectrum of the PN signal.

机译：报告了一种用于运动伪影（MA）跟踪和补偿的数字在线技术，用于使用干接点电极的脑电图（EEG）监视。通过参考电极将安全的低电平伪随机噪声（PN）信号驱动到人体，作为测试信号，以测量电极组织界面（ETI）的生物电势获取路径增益（APG）。然后，数字域增益补偿器利用测量结果以与MA引起的APG变化相反的方式起作用，从而实时补偿乘法运动伪像（MMA）。剩余的基线漂移或附加运动伪影（AMA）由数字高通滤波器（HPF）处理。在这种技术中，由于PN信号几乎是白色频谱，因此测试信号对EEG信号的干扰可以忽略不计。

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《IEEE Signal Processing in Medicine and Biology Symposium 》|2014年|1-4|共4页
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Jingyi Song; Tuo Shan; Shuang Zhu; Yun Chiu;
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biological tissues; biomedical electrodes; digital filters; electroencephalography; high-pass filters; medical signal processing; motion compensation; patient monitoring; signal denoising; EEG signal acquisition; MA-induced APG variation; PN signal; additive motion artifact; baseline wander; biopotential acquisition-path gain; compensation technique; digital high-pass filter; digital online technique; digital-domain gain compensator; dry-contact EEG monitoring system; dry-contact electrodes; electrode-tissue interface; electroencephalogram monitoring; low-level pseudorandom noise signal; motion-artifact tracking; multiplicative motion artifact; white spectrum; Brain modeling; Electric potential; Electrodes; Electroencephalography; Filtering; Monitoring; Time measurement; AMA; BCI; EEG; ETI; MMA; motion artifact;

机译：生物组织;生物医学电极;数字滤波器;脑电图;高通滤波器;医学信号处理;运动补偿;病人监护;信号降噪; EEG信号采集; MA诱导的APG变化; PN信号;加性运动伪影;基线漂移;生物电势采集路径增益;补偿技术;数字高通滤波器;数字在线技术;数字域增益补偿器;干式接触式脑电图监测系统;干式接触电极;电极-组织接口;脑电图监测;伪随机噪声信号低级;运动伪迹跟踪;乘性运动伪影;白频谱;脑模型;电势;电极;脑电图;滤波;监测;时间测量; AMA; BCI; EEG; ETI; MMA;运动伪影;

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A motion-artifact tracking and compensation technique for dry-contact EEG monitoring system

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