Hybrid SSVEP + P300 brain-computer interface can deal with non-stationary cerebral responses with the use of adaptive classification

IF 3.1 4区医学 Q2 CLINICAL NEUROLOGY Journal of Neurorestoratology Pub Date : 2024-03-13 DOI:10.1016/j.jnrt.2024.100109

Deepak D. Kapgate

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Abstract

Introduction

The non-stationarity of electroencephalograms (EEG) has a substantial effect on the performance of classifiers in brain-computer interface (BCI) systems. To tackle this challenge, an adaptable version of the linear discriminant analysis (LDA) classifier was proposed. Accuracy is crucial when using BCIs for neurorestorative tasks or memory improvement. The accurate comprehension of brain responses facilitates more focused interventions, which may improve neurorestorative outcomes. BCIs equipped with adaptive classifiers are useful for personalizing therapies to individual requirements and for improving neurorestorative processes. Notably, neurorestorative interventions that yield consistent, accurate, and reliable outcomes are more likely to inspire trust and elicit satisfaction in users.

Methods

The proposed classifier continuously modified its parameters in accordance with EEG signals. The covariance matrix and mean values for each pair of classes were the updating parameters. The proposed classifier modified the model parameters by prioritizing current signal data over older signal history. The proposed classifier was tested using a hybrid SSVEP + P300 BCI system.

Results and conclusions

The proposed classifier had an estimated classification accuracy of 97.4%, and was more effective than pooled mean LDA and conventional multiclass LDA classifiers. Increased classification accuracy may increase the responsiveness of neurorestorative interventions and increase the usefulness of BCIs in neurorestoration.

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混合 SSVEP + P300 脑机接口可利用自适应分类处理非稳态大脑反应

导言脑电图（EEG）的非稳态性对脑机接口（BCI）系统中分类器的性能有很大影响。为了应对这一挑战，有人提出了线性判别分析（LDA）分类器的适应版本。在使用 BCI 执行神经恢复任务或改善记忆时，准确性至关重要。准确理解大脑反应有助于进行更有针对性的干预，从而改善神经恢复效果。配备了自适应分类器的生物识别技术有助于根据个人需求进行个性化治疗，并改善神经恢复过程。值得注意的是，能够产生一致、准确和可靠结果的神经恢复干预措施更有可能激发用户的信任感和满意度。每对类别的协方差矩阵和均值是更新参数。建议的分类器通过优先考虑当前信号数据而不是较早的信号历史数据来修改模型参数。使用混合 SSVEP + P300 BCI 系统测试了所提出的分类器。结果和结论所提出的分类器估计分类准确率为 97.4%，比集合平均 LDA 和传统多类 LDA 分类器更有效。分类准确率的提高可能会提高神经恢复干预的响应速度，并增加 BCI 在神经恢复中的实用性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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