用于未校准 SSVEP-BCI 的滤波器组时间延迟 CCA。

IF 2.6 4区医学 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Medical & Biological Engineering & Computing Pub Date : 2025-02-01 Epub Date: 2024-09-24 DOI:10.1007/s11517-024-03193-x

Xiangguo Yin, Caixiu Yang, Hui Dong, Jingting Liang, Mingxing Lin

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引用次数: 0

摘要

基于稳态视觉诱发电位（SSVEP）的非校准脑机接口（BCI）系统可省去训练过程，更接近实际应用。滤波器组典型相关分析（FBCCA）是基于稳态视觉诱发电位的无校准脑机接口（BCI）的一种经典方法，它通过滤波器组分解提取基波和谐波成分。然而，这种方法无法充分利用信号的时间特征。论文建议在计算典型相关系数时利用具有时间延迟的重建数据，并讨论了时间延迟嵌入和 FBCCA 的不同组合。我们从基准数据集中选取了七名参与者的数据进行参数优化，并在所有参与者中对该方法进行了评估。实验结果表明，仅将延时版本嵌入第一个子带（FBdCCA）的效果优于将其嵌入所有子带（FBdCCA(all)）的效果，而且 FBdCCA 的准确率明显高于 FBCCA。这表明延时嵌入方法可以进一步提高 FBCCA 的性能。

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Filter bank temporally delayed CCA for uncalibrated SSVEP-BCI.

The uncalibrated brain-computer interface (BCI) system based on steady-state visual evoked potential (SSVEP) can omit the training process and is closer to the practical application. Filter bank canonical correlation analysis (FBCCA), as a classical approach of uncalibrated SSVEP-based BCI, extracts the fundamental and harmonic ingredients through filter bank decomposition. Nevertheless, this method fails to fully leverage the temporal feature of the signal. The paper suggested utilizing reconstructed data with temporal delay in the computation of the canonical correlation coefficient, and the different combinations of the time-delayed embedding and FBCCA were discussed. We selected the data from seven participants in the Benchmark dataset for parameter optimization and evaluated the method across all participants. The experimental results showed that only embedding the time-delayed version into the first subband (FBdCCA) was better than embedding it into all subbands (FBdCCA(all)), and the accuracy of FBdCCA surpassed that of FBCCA significantly. This suggests that the approach of time-delayed embedding can further enhance the performance of FBCCA.

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来源期刊

Medical & Biological Engineering & Computing 医学-工程：生物医学

CiteScore

6.00

自引率

3.10%

发文量

249

审稿时长

3.5 months

期刊介绍： Founded in 1963, Medical & Biological Engineering & Computing (MBEC) continues to serve the biomedical engineering community, covering the entire spectrum of biomedical and clinical engineering. The journal presents exciting and vital experimental and theoretical developments in biomedical science and technology, and reports on advances in computer-based methodologies in these multidisciplinary subjects. The journal also incorporates new and evolving technologies including cellular engineering and molecular imaging. MBEC publishes original research articles as well as reviews and technical notes. Its Rapid Communications category focuses on material of immediate value to the readership, while the Controversies section provides a forum to exchange views on selected issues, stimulating a vigorous and informed debate in this exciting and high profile field. MBEC is an official journal of the International Federation of Medical and Biological Engineering (IFMBE).