Fractal dimension methods to determine optimum EEG electrode placement for concentration estimation

机译：分形维数方法确定用于浓度估算的最佳EEG电极位置

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In this study, fractal dimension approaches were used for analyzing EEG to determine the optimum electrode placement to distinguish between concentration and relaxation states. The EEG of five subjects were recorded from multiple electrode placements while under relaxed state, and while in a state of heightened mental activity. Higuchi and Katz algorithms were applied to extract the FD indices of the EEG signals at 1-second intervals. These were then plotted in a graph and a simple linear regression was applied. The resulting ROC curve was used to determine the best electrode placement for distinguishing between relaxed and concentration brain states. The Katz algorithm performed slightly better than the Higuchi method. With the exception of P4, multiple electrode placements were found to be suitable for distinguishing between relaxed and concentration states, with P7 and F3 being slightly better than the rest.

机译：在这项研究中，分形维数方法用于分析脑电图，以确定最佳的电极位置，以区分浓度和弛豫状态。在放松状态下，以及在精神活动增强的状态下，从多个电极位置记录了五名受试者的脑电图。应用Higuchi和Katz算法以1秒的间隔提取脑电信号的FD指数。然后将它们绘制在图形中，并应用简单的线性回归。所得的ROC曲线用于确定最佳电极位置，以区分放松状态和集中状态。 Katz算法的性能比Higuchi方法略好。除了P4，发现多个电极位置适合区分松弛状态和集中状态，P7和F3比其他状态稍好。

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《International Conference on Soft Computing and Intelligent Systems;International Symposium on Advanced Intelligent Systems》|2014年|952-955|共4页
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Siamaknejad Hossein; Chu Kiong Loo; Wei Shiung Liew;
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biomedical electrodes; electroencephalography; fractals; medical signal processing; neurophysiology; patient diagnosis; regression analysis; EEG analysis; EEG signals; FD index extraction; Higuchi algorithm; Katz algorithm; ROC curve; concentration brain state; concentration estimation; concentration states; electroencephalography; fractal dimension approaches; fractal dimension methods; heightened mental activity; multiple electrode placements; optimum EEG electrode placement; optimum electrode placement determination; relaxation states; relaxed brain state; simple linear regression; Computers; Electrodes; Electroencephalography; Feature extraction; Fractals; Signal processing algorithms; Time series analysis;

机译：生物医学电极;脑电图;分形;医学信号处理;神经生理学;患者诊断;回归分析; EEG分析; EEG信号; FD指数提取; Higuchi算法; Katz算法; ROC曲线;浓度脑状态;浓度估计;浓度状态;脑电图;分形维方法;分形维方法;增强智力活动;多个电极放置;最佳EEG电极放置;最佳电极放置确定;松弛状态;松弛的大脑状态;简单线性回归;计算机;电极;脑电图;特征提取;分形;信号处理算法;时间序列分析;

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3. A Method for Quantifying the Emotional Intensity and Duration of a Startle Reaction with Customized Fractal Dimensions of EEG Signals [J] . Franz Konstantin Fuss Applied Mathematics . 2016,第4期

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4. Fractal dimension methods to determine optimum EEG electrode placement for concentration estimation [C] . Siamaknejad Hossein, Chu Kiong Loo, Wei Shiung Liew International Conference on Soft Computing and Intelligent Systems;International Symposium on Advanced Intelligent Systems . 2014

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5. New methods for estimating fractal dimensions of coastlines. [D] . Klotzbach, Jonathan David. 1998

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6. Determining Electrode Placement for Transcranial Direct Current Stimulation: A Comparison of EEG- Versus TMS-Guided Methods [O] . Tonya L. Rich, Jeremiah S. Menk, Kyle D. Rudser, -1

机译：确定经颅直流电刺激的电极位置：脑电图与TMS引导方法的比较
7. Determining Electrode Placement for Transcranial Direct Current Stimulation: A Comparison of EEG- Versus TMS-Guided Methods [O] . Tonya L. Rich, Jeremiah S. Menk, Kyle D. Rudser, 2017

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Fractal dimension methods to determine optimum EEG electrode placement for concentration estimation

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