What question did this study set out to answer?

The study aims to improve filtering techniques for EEG signals to enhance information extraction for individuals with motor disabilities.

March 26, 2026Open Access

Correlation-Based Adaptive Filtering Performance Driven by Signal Decomposition Methods for EEG Signals of Individuals with Severe Motor Disabilities

Q: What is the clinical evidence from this study?

Study design: Other. Population: Severe motor disabilities (n=9). Intervention: Correlation-Based Adaptive Variational Mode Decomposition (CBAVMD) vs. Elliptic Bandpass Filter. Primary outcome: Average binary classification accuracy of EEG signals using Support Vector Machine (SVM).

Key Result

Correlation-Based Adaptive Variational Mode Decomposition filtering improved average EEG binary classification accuracy to 70.4% compared to 66.2% with a traditional Elliptic Bandpass Filter.

Key Points

The study aims to improve filtering techniques for EEG signals to enhance information extraction for individuals with motor disabilities.
Apply Wavelet Decomposition, Empirical Mode Decomposition, and Variational Mode Decomposition methods.
Use correlation-based filtering to adaptively process EEG signals.
Calculate performance based on binary classification accuracies of different labels using machine learning classifiers.
VMD method shows the highest subject-wise accuracy of 76.1% for binary classification.
Average accuracy of 70.4% achieved for all binary classifications using the SVM classifier.
Correlation-enhanced filtering outperforms traditional Elliptic Bandpass Filter.

Structured PICO

Population

Individuals with severe motor disabilities (locked-in syndrome due to brainstem stroke, spinal cord injury, massive hemorrhagic stroke, etc.)

Intervention

Correlation-Based Adaptive Variational Mode Decomposition (CBAVMD), Wavelet Decomposition (CBAWD), and Empirical Mode Decomposition (CBAEMD) filtering methods

Comparator

Elliptic Bandpass Filter (0.3Hz - 35Hz)

Outcome

Binary classification accuracy of five different labels using a Support Vector Machine (SVM) classifier

Correlation-based adaptive Variational Mode Decomposition (CBAVMD) outperforms traditional Elliptic Bandpass filtering in preserving meaningful EEG signal information for BCI applications in patients with severe motor disabilities.

Limitations

No inferential statistical tests (e.g., Friedman or repeated-measures ANOVA) were conducted to assess the statistical significance of differences between filtering methods.

Abstract

Electroencephalogram (EEG) signals are obtained from the surface of the scalp through a Brain-Computer Interface (BCI) and show the activity of brain regions. EEG signals are useful tools for people, especially those who have severe motor disabilities for an improved quality of life. Because of their noisy nature caused by a small movement of the head, eye blink, or even breathing, it is extremely hard to extract meaningful information from EEG signals. Thus, it is imperative to filter EEG signals without losing their essential parts. While filtering, the concept of adaptivity comes in handy because of its flexible nature to preserve important information. In this context, a novel approach that applies Wavelet Decomposition (WD), Empirical Mode Decomposition (EMD), or Variational Mode Decomposition (VMD) methods to filter EEG signals adaptively based on correlation was proposed. The performances of developed methods were calculated based on the accuracies of binary classifications of five different labels by using machine learning classifiers and compared with an Elliptic Bandpass Filter. The study shows that the proposed adaptively implemented VMD is the most useful filtering method for EEG signals, providing the best performance with 76.1% subject-wise accuracy for binary classification of word association and feet motor imagery and an average accuracy of 70.4% for all binary classifications using a Support Vector Machine (SVM) classifier. The results show that correlation is an efficient tool to adaptively implement signal decomposition methods as filters by preserving meaningful information more successfully than an Elliptic Bandpass Filter.

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Discussion

Authors

Esra S Kaya

Ismail Sarıtas

Journals

Bitlis Eren Üniversitesi Fen Bilimleri Dergisi

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Discussion

Cite this study

Kaya et al. (Tue,) conducted a other in Severe motor disabilities (n=9). Correlation-Based Adaptive Variational Mode Decomposition (CBAVMD) vs. Elliptic Bandpass Filter was evaluated on Average binary classification accuracy of EEG signals using Support Vector Machine (SVM). Correlation-Based Adaptive Variational Mode Decomposition filtering improved average EEG binary classification accuracy to 70.4% compared to 66.2% with a traditional Elliptic Bandpass Filter.

www.synapsesocial.com/papers/69c4cc85fdc3bde448917dcb — DOI: https://doi.org/10.17798/bitlisfen.1726313

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Correlation-Based Adaptive Filtering Performance Driven by Signal Decomposition Methods for EEG Signals of Individuals with Severe Motor Disabilities

Key Result

Key Points

Structured PICO

Limitations

Abstract

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