A comparison of EOG baseline drift mitigation techniques

•The first literature review of different EOG baseline drift mitigation techniques.•Qualitative and quantitative comparison of techniques on real-recorded EOG data.•An open-access EOG signal database being made publicly available. Electrooculography (EOG) is an eye movement recording technique based...

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Published inBiomedical signal processing and control Vol. 57; p. 101738
Main Authors Barbara, Nathaniel, Camilleri, Tracey A., Camilleri, Kenneth P.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2020
Subjects
Baseline drift
Baseline drift mitigation
Electrooculography
EOG
Eye gaze tracking
Electrooculography
Eye gaze tracking
EOG
Baseline drift mitigation
Baseline drift
Online AccessGet full text
ISSN1746-8094
1746-8108
DOI10.1016/j.bspc.2019.101738

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Abstract •The first literature review of different EOG baseline drift mitigation techniques.•Qualitative and quantitative comparison of techniques on real-recorded EOG data.•An open-access EOG signal database being made publicly available. Electrooculography (EOG) is an eye movement recording technique based on the electrical activity due to the eyes, which may be used to develop human computer interfaces. The EOG signal baseline is subject to drifting and, although several baseline drift mitigation techniques have been proposed in the literature, the specific technique and the corresponding parameters are generally arbitrarily chosen. Furthermore, the literature does not establish which is the most suitable technique. Hence, this work aims to review these different techniques, and qualitatively and quantitatively compare their performance in mitigating the baseline drift using the same EOG data. This dataset is also being made publicly available to serve as a benchmark for future work. The state-of-the-art baseline drift mitigation techniques, namely, frequent DC reference resetting, signal differencing, high-pass filtering, wavelet decomposition and polynomial fitting, were implemented and statistically compared. Generally, frequent resetting and signal differencing were statistically significantly better than the other techniques. Furthermore, high-pass filtering and wavelet decomposition had statistically similar performance, while the polynomial fitting technique was never superior to the other techniques. While frequent resetting and signal differencing gave the best performance, the former disrupts the user's interaction with the system whereas the latter undesirably changes the EOG signal morphology. From the remaining techniques, high-pass filtering and wavelet decomposition would be the most suitable, but only the former would be applicable to real-time applications. This work compares five state-of-the-art EOG baseline drift mitigation techniques and provides a guideline for future work.
AbstractList •The first literature review of different EOG baseline drift mitigation techniques.•Qualitative and quantitative comparison of techniques on real-recorded EOG data.•An open-access EOG signal database being made publicly available. Electrooculography (EOG) is an eye movement recording technique based on the electrical activity due to the eyes, which may be used to develop human computer interfaces. The EOG signal baseline is subject to drifting and, although several baseline drift mitigation techniques have been proposed in the literature, the specific technique and the corresponding parameters are generally arbitrarily chosen. Furthermore, the literature does not establish which is the most suitable technique. Hence, this work aims to review these different techniques, and qualitatively and quantitatively compare their performance in mitigating the baseline drift using the same EOG data. This dataset is also being made publicly available to serve as a benchmark for future work. The state-of-the-art baseline drift mitigation techniques, namely, frequent DC reference resetting, signal differencing, high-pass filtering, wavelet decomposition and polynomial fitting, were implemented and statistically compared. Generally, frequent resetting and signal differencing were statistically significantly better than the other techniques. Furthermore, high-pass filtering and wavelet decomposition had statistically similar performance, while the polynomial fitting technique was never superior to the other techniques. While frequent resetting and signal differencing gave the best performance, the former disrupts the user's interaction with the system whereas the latter undesirably changes the EOG signal morphology. From the remaining techniques, high-pass filtering and wavelet decomposition would be the most suitable, but only the former would be applicable to real-time applications. This work compares five state-of-the-art EOG baseline drift mitigation techniques and provides a guideline for future work.
ArticleNumber 101738
Author Camilleri, Tracey A.
Barbara, Nathaniel
Camilleri, Kenneth P.
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Keywords Electrooculography
Eye gaze tracking
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Baseline drift mitigation
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Snippet •The first literature review of different EOG baseline drift mitigation techniques.•Qualitative and quantitative comparison of techniques on real-recorded EOG...
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StartPage 101738
SubjectTerms Baseline drift
Baseline drift mitigation
Electrooculography
EOG
Eye gaze tracking
Title A comparison of EOG baseline drift mitigation techniques
URI https://dx.doi.org/10.1016/j.bspc.2019.101738
Volume 57
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