Directed EEG Functional Connectivity Features to Reveal Different Attention Indexes Using Hierarchical Clustering

Iddas, Hadriana; Iramina, Keiji

doi:10.1109/access.2021.3072224

Cited by 4 publications

(2 citation statements)

References 56 publications

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“…As the diversity of feature importance implied functional differentiation among regions during the emergence of consciousness, we next sought to uncover the hidden functional structure of these regions by taking advantage of the similarity of feature importance. We used a hierarchical clustering algorithm, which belongs to the data-driven unsupervised machine learning approach, 32 to cluster these 20 regions by their feature importance values. We found these regions were automatically clustered into three groups in both transitions ( Figure 6 D for NS versus SubCon and Figure 6 E for SubCon versus Con).…”

Section: Resultsmentioning

confidence: 99%

Mapping the emergence of visual consciousness in the human brain via brain-wide intracranial electrophysiology

et al. 2022

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Section: Resultsmentioning

confidence: 99%

Mapping the emergence of visual consciousness in the human brain via brain-wide intracranial electrophysiology

et al. 2022

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“…Frontal lobe and central lobe play an important role in attention processing [72]. Many EEG studies have found frontal asymmetry existed in the patients with depression.…”

Section: Abnormal Brain Symmetry In MDmentioning

confidence: 99%

Abnormal Brain Topological Structure of Mild Depression During Visual Search Processing Based on EEG Signals

Sun

Liu

Shao

et al. 2022

IEEE Trans. Neural Syst. Rehabil. Eng.

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Studies have shown that attention bias can affect behavioral indicators in patients with depression, but it is still unclear how this bias affects the brain network topology of patients with mild depression (MD). Therefore, a novel functional brain network analysis and hierarchical clustering methods were used to explore the abnormal brain topology of MD patients based on EEG signals during the visual search paradigm. The behavior resultsshowed that the reaction time of MD group was significantly higher than that of normal group. The results of functional brain network indicated significant differences in functional connections between the two groups, the amount of inter-hemispheric long-distance connections are much larger than intra-hemispheric short-distance connections. Patients with MD showed significantly lower local efficiency and clustering coefficient, destroyed community structure of frontal lobe and parietal-occipital lobe, frontal asymmetry, especially in beta band. In addition, the average value of long-distance connections between left frontal and right parietal-occipital lobes presented significant correlation with depressive symptoms. Our results suggested that MD patients achieved long-distance connections between the frontal and parietal-occipital regions by sacrificing the

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Clustering for mitigating subject variability in driving fatigue classification using electroencephalography source-space functional connectivity features

Nguyen,

Tran,

Craig

et al. 2024

J. Neural Eng.

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While Electroencephalography (EEG)-based driver fatigue state classification models have demonstrated effectiveness, their real-world application remains uncertain. The substantial variability in EEG signals among individuals poses a challenge in developing a universal model, often necessitating retraining with the introduction of new subjects. However, obtaining sufficient data for retraining, especially fatigue data for new subjects, is impractical in real-world settings. In response to these challenges, this paper introduces a hybrid solution for fatigue detection that combines clustering with classification. Unsupervised clustering groups subjects based on their EEG functional connectivity in an alert state, and classification models are subsequently applied to each cluster for predicting alert and fatigue states. Results indicate that classification on clusters achieves higher accuracy than scenarios without clustering, suggesting successful grouping of subjects with similar functional connectivity characteristics through clustering, thereby enhancing the classification process. Furthermore, the proposed hybrid method ensures a practical and realistic retraining process, improving the adaptability and effectiveness of the fatigue detection system in real-world applications.

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Directed EEG Functional Connectivity Features to Reveal Different Attention Indexes Using Hierarchical Clustering

Cited by 4 publications

References 56 publications

Mapping the emergence of visual consciousness in the human brain via brain-wide intracranial electrophysiology

Mapping the emergence of visual consciousness in the human brain via brain-wide intracranial electrophysiology

Abnormal Brain Topological Structure of Mild Depression During Visual Search Processing Based on EEG Signals

Clustering for mitigating subject variability in driving fatigue classification using electroencephalography source-space functional connectivity features

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