期刊
ELECTRONICS
卷 12, 期 10, 页码 -出版社
MDPI
DOI: 10.3390/electronics12102232
关键词
emotion recognition; deep learning; EEG; music; CNN
In this research, a model based on Deep Convolutional Neural Networks (DCNNs) is presented, which can reliably classify three emotions: positive, negative, and neutral, from EEG signals using musical stimuli. The proposed model achieved an accuracy of 98% for the binary classification of positive and negative emotions, and 96% accuracy for the trinary classification of positive, neutral, and negative emotions.
Automatic emotion recognition from electroencephalogram (EEG) signals can be considered as the main component of brain-computer interface (BCI) systems. In the previous years, many researchers in this direction have presented various algorithms for the automatic classification of emotions from EEG signals, and they have achieved promising results; however, lack of stability, high error, and low accuracy are still considered as the central gaps in this research. For this purpose, obtaining a model with the precondition of stability, high accuracy, and low error is considered essential for the automatic classification of emotions. In this research, a model based on Deep Convolutional Neural Networks (DCNNs) is presented, which can classify three positive, negative, and neutral emotions from EEG signals based on musical stimuli with high reliability. For this purpose, a comprehensive database of EEG signals has been collected while volunteers were listening to positive and negative music in order to stimulate the emotional state. The architecture of the proposed model consists of a combination of six convolutional layers and two fully connected layers. In this research, different feature learning and hand-crafted feature selection/extraction algorithms were investigated and compared with each other in order to classify emotions. The proposed model for the classification of two classes (positive and negative) and three classes (positive, neutral, and negative) of emotions had 98% and 96% accuracy, respectively, which is very promising compared with the results of previous research. In order to evaluate more fully, the proposed model was also investigated in noisy environments; with a wide range of different SNRs, the classification accuracy was still greater than 90%. Due to the high performance of the proposed model, it can be used in brain-computer user environments.
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