# A new fast approach for an EEG-based Motor Imagery BCI classification

**Authors:** Mohammad Ali Amirabadi

arXiv: 1906.11919 · 2019-07-01

## TL;DR

This paper introduces a fast algorithm for EEG-based Motor Imagery BCI classification that improves accuracy by effectively separating source signals from noisy recordings, addressing signal quality issues.

## Contribution

It presents a novel rapid source separation method that enhances classification accuracy in EEG-based BCI, especially when all trials are of low quality.

## Key findings

- Improved classification accuracy over traditional methods
- Effective separation of source signals from noisy EEG data
- Fast processing suitable for real-time applications

## Abstract

Nowadays, Brain Computer Interface has an important role in the life quality of parallelized people. However, this technique is mainly affected by the quality of the recorded signal in each trial. This problem could be solved by rejecting low-quality trials. But developing the processing based on the recorded signal from the brain, which is a mixture of the target signal plus noise and artifact, would not be favorable in situations that all trials have low quality. This paper solves this problem by presenting a new fast algorithm for separating recorded source signals. Results indicate the improvement in classification accuracy of the proposed method compared with the classification accuracy of processing on the recorded mixture signal.

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Source: https://tomesphere.com/paper/1906.11919