Dual-sided EEG electrode signals have varying correlations that depend on movement characteristics
Jinfeng Li, Helen J. Huang

TL;DR
This study explores how dual-sided EEG electrodes interact with movement, revealing how motion affects signal correlations for better brain activity monitoring.
Contribution
The study introduces new insights into dual-sided EEG signal correlations influenced by movement characteristics.
Findings
Movement direction affects the correlation signs between dual-sided EEG signals.
Signal correlations scale with movement magnitude, not frequency.
Increased movement randomness reduces top and bottom signal correlation.
Abstract
Mobile Electroencephalography (EEG) measures human brain activity during locomotion, extending brain dynamics research into real-world scenarios. However, EEG is highly susceptible to artifacts, and more reliable approaches are needed to attenuate motion artifacts in mobile EEG recordings. Dual-layer EEG, which records scalp EEG simultaneously with isolated motion artifact signals, presents a novel and promising approach. This method assumes that noise-biased EEG data captures the common noise as the isolated motion artifact data. The purpose of this study was to investigate the relationship between signals from both sides of the electrode and their relationship to movement. We developed a benchtop test platform where the top and bottom sides of a dual-sided electrode interfaced with conductive fabric. Using a robotic arm, we moved the dual-sided electrode with different directions,…
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Taxonomy
TopicsEEG and Brain-Computer Interfaces · Functional Brain Connectivity Studies · Neural dynamics and brain function
