Abstract
Contamination of eye movement and blink artifacts in Electroencephalogram (EEG) recording makes the analysis of EEG data more difficult and could result in mislead findings. Efficient removal of these artifacts from EEG data is an essential step in improving classification accuracy to develop the brain-computer interface (BCI). In this paper, we proposed an automatic framework based on independent component analysis (ICA) and system identification to identify and remove ocular artifacts from EEG data by using hybrid EEG and eye tracker system. The performance of the proposed algorithm is illustrated using experimental and standard EEG datasets. The proposed algorithm not only removes the ocular artifacts from artifactual zone but also preserves the neuronal activity related EEG signals in non-artifactual zone. The comparison with the two state-of-the-art techniques namely ADJUST based ICA and REGICA reveals the significant improved performance of the proposed algorithm for removing eye movement and blink artifacts from EEG data. Additionally, results demonstrate that the proposed algorithm can achieve lower relative error and higher mutual information values between corrected EEG and artifact-free EEG data.
Highlights
In recent years, non-invasive neuro-imaging has become a valuable research tool to understand the underlying functionality of the brain [1,2,3,4,5]
This paper presents an automatic framework based on independent component analysis (ICA) and auto-regressive exogenous model to identify and remove ocular artifacts from EEG signals by combining EEG and eye tracker
The performance of the proposed algorithm is compared with two conventional methods, i.e., ICA and REGICA to verify the significant improvement of results
Summary
Non-invasive neuro-imaging has become a valuable research tool to understand the underlying functionality of the brain [1,2,3,4,5]. Measurements from EEG are highly contaminated with eye movement and blink artifacts which are several times higher in magnitude as compared to neuronal activity [8,9,10,11,12,13]. This issue has become a recurrent problem, for example in brain-computer interface (BCI) where it has been proved to decrease the classification accuracy [14]. Several automated methods have been proposed to detect and remove/reduce
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