基于变分模态分解的脑电锁相刺激方法* .txt
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中图分类号: TN98 TH89文献标识码: A国家标准学科分类代码: 31061 .txt

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*基金项目:广西自然科学基金(2016GXNSFAA380068)项目资助 .txt


Phase locked stimulus method of EEG based on variational mode decomposition
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    摘要:

    摘要:锁相刺激技术在神经机制研究及临床治疗中具有很好的应用前景,但需解决脑电信号(EEG)和刺激信号之间相位锁定的问题。由于EEG复杂的时变性,目前还缺乏用于实现与EEG锁相的有效刺激算法。为此,提出基于变分模态分解(VMD)和自回归(AR)预测的锁相刺激方法。首先对采集的EEG进行VMD处理,得到多个本征模态信号;然后对每个本征模态信号采用AR模型进行预测,将所有模态对应的预测值叠加;最后依据叠加结果的频率和相位特征,生成与EEG锁相的刺激。分别对模拟EEG和20名受试者(年龄20~36岁,男性12名,女性8名)的睁、闭眼静息态EEG进行测试。结果表明,VMDAR方法能很好地克服EEG非平稳性的影响而生成具有更高锁相值(PLV)的刺激;预测时长从001 s增大至04 s时,睁眼EEG的PLV从099减小至039,闭眼EEG的PLV从099减小至065;建模时长从025 s增大至25 s时,睁眼EEG的PLV从064增大至083,闭眼EEG的PLV从053增大至065;在所有测试条件下,VMDAR方法的锁相性能均优于AR和基于经验模态分解的AR方法EMDAR。该方法同样适用于其他非平稳信号的闭环锁相系统。 .txt

    Abstract:

    Abstract:The phase locked stimulus technology has great application prospect in the neural mechanism research and clinical treatment. However, the problem of phase locked between electroencephalogram (EEG) and stimulus need to be solved. Due to the complicated timevarying characteristics of EEG, there is still lack of effective stimulus algorithms that can be used to lock with the EEG phase. Therefore, a phase locked stimulus method for EEG is proposed, which is based on the variational mode decomposition (VMD) and autoregressive (AR) prediction. Firstly, EEG is processed by VMD to obtain multiple eigenmode signals. Then, each eigenmode signal is predicted by the AR model. The predicted values corresponding to all modes are accumulated. Finally, according to the frequency and phase characteristics of the accumulated results, the stimulus is generated, which is phaselocked with EEG. The method is evaluated in the synthesized EEG and 20 subjects (aged 20~36, male 12, female 8) offline resting EEG respectively. Results show that VMDAR can overcome the influence of EEG instability and generate the stimulus with higher phaselocked value (PLV). When the length of prediction time increases from 001 s to 04 s, PLV of opened EEG decreases from 099 to 039, and PLV of closed EEG decreases from 099 to 065. When the length of modeling time increases from 025 s to 25 s, PLV of opened EEG increases from 064 to 083, and PLV of closed EEG increases from 053 to 065. The phase locked performance of VMDAR is superior to the methods of AR and AR based on empirical mode decomposition EMDAR under all test conditions. This method can also be applied to other nonstationary closedloop phaselocked systems. .txt

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陈妮,覃玉荣,熊艳婷,李卓然 . txt.基于变分模态分解的脑电锁相刺激方法* . txt[J].仪器仪表学报,2020,41(5):205-213

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  • 在线发布日期: 2022-03-01
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