Two-dimensional CNN-based distinction of human emotions from EEG channels selected by Multi-Objective evolutionary algorithm
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https://hdl.handle.net/10037/24545Date
2022Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
In this study we explore how different levels of emotional intensity (Arousal) and pleasantness (Valence) are reflected in
Electroencephalographic (EEG) signals. We performed the experiments on EEG data of 32 subjects from the DEAP public
dataset, where the subjects were stimulated using 60-second videos to elicitate different levels of Arousal/Valence and then
self-reported the rating from 1-9 using the Self-Assessment Manikin (SAM). The EEG data was pre-processed and used as
input to a Convolutional Neural Network (CNN). First, the 32 EEG channels were used to compute the maximum accuracy
level obtainable for each subject as well as for creating a single model using data from all the subjects. The experiment was
repeated using one channel at a time, to see if specific channels contain more information to discriminate between Low vs High
Arousal/Valence. The results indicate than using one channel the accuracy is lower compared to using all the 32 channels.
An optimization process for EEG channel selection is then designed with the Non-dominated Sorting Genetic Algorithm II
(NSGA-II) with the objective to obtain optimal channel combinations with high accuracy recognition. The genetic algorithm
evaluates all possible combinations using a chromosome representation for all the 32 channels, and the EEG data from each
chromosome in the different populations are tested iteratively solving two unconstrained objectives; to maximize classification
accuracy and to reduce the number of required EEG channels for the classification process. Best combinations obtained from
a Pareto-front suggests that as few as 8-10 channels can fulfill this condition and provide the basis for a lighter design of EEG
systems for emotion recognition. In the best case, the results show accuracies of up to 1.00 for Low vs High Arousal using 8
EEG channels, and 1.00 for Low vs High Valence using only 2 EEG channels. These results are encouraging for research and
healthcare applications that will require automatic emotion recognition with wearable EEG.
Publisher
Nature ResearchCitation
Moctezuma LA, Abe T, Molinas Cabrera MM. Two-dimensional CNN-based distinction of human emotions from EEG channels selected by Multi-Objective evolutionary algorithm. Scientific Reports. 2022;12Metadata
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