Multi-Domain Convolutional Neural Networks for Lower-Limb Motor Imagery Using Dry vs. Wet Electrodes

Authors
Jeong, Ji-HyeokChoi, Jun-HyukKim, Keun-TaeLee, Song-JooKim, Dong-JooKim, Hyung-Min
Issue Date
2021-10
Publisher
Multidisciplinary Digital Publishing Institute (MDPI)
Citation
Sensors, v.21, no.19
Abstract
Motor imagery (MI) brain-computer interfaces (BCIs) have been used for a wide variety of applications due to their intuitive matching between the user&apos;s intentions and the performance of tasks. Applying dry electroencephalography (EEG) electrodes to MI BCI applications can resolve many constraints and achieve practicality. In this study, we propose a multi-domain convolutional neural networks (MD-CNN) model that learns subject-specific and electrode-dependent EEG features using a multi-domain structure to improve the classification accuracy of dry electrode MI BCIs. The proposed MD-CNN model is composed of learning layers for three domain representations (time, spatial, and phase). We first evaluated the proposed MD-CNN model using a public dataset to confirm 78.96% classification accuracy for multi-class classification (chance level accuracy: 30%). After that, 10 healthy subjects participated and performed three classes of MI tasks related to lower-limb movement (gait, sitting down, and resting) over two sessions (dry and wet electrodes). Consequently, the proposed MD-CNN model achieved the highest classification accuracy (dry: 58.44%; wet: 58.66%; chance level accuracy: 43.33%) with a three-class classifier and the lowest difference in accuracy between the two electrode types (0.22%, d = 0.0292) compared with the conventional classifiers (FBCSP, EEGNet, ShallowConvNet, and DeepConvNet) that used only a single domain. We expect that the proposed MD-CNN model could be applied for developing robust MI BCI systems with dry electrodes.</p>
Keywords
BRAIN-COMPUTER INTERFACE; EEG; brain-computer interfaces; electroencephalography; motor imagery; lower limb; electrodes; neural networks; multilayer neural network
ISSN
1424-8220
URI
https://pubs.kist.re.kr/handle/201004/116311
DOI
10.3390/s21196672
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KIST Article > 2021
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