the emotion recognition system based on autoregressive model and sequential forward feature selection of electroencephalogram signals

Authors

sepideh hatamikia

keivan maghooli

ali motie nasrabadi

abstract

electroencephalogram (eeg) is one of the useful biological signals to distinguish different brain diseases and mental states. in recent years, detecting different emotional states from biological signals has been merged more attention by researchers and several feature extraction methods and classifiers are suggested to recognize emotions from eeg signals. in this research, we introduce an emotion recognition system using autoregressive (ar) model, sequential forward feature selection (sfs) and k‑nearest neighbor (knn) classifier using eeg signals during emotional audio‑visual inductions. the main purpose of this paper is to investigate the performance of ar features in the classification of emotional states. to achieve this goal, a distinguished ar method (burg’s method) based on levinson‑durbin’s recursive algorithm is used and ar coefficients are extracted as feature vectors. in the next step, two different feature selection methods based on sfs algorithm and davies–bouldin index are used in order to decrease the complexity of computing and redundancy of features; then, three different classifiers include knn, quadratic discriminant analysis and linear discriminant analysis are used to discriminate two and three different classes of valence and arousal levels. the proposed method is evaluated with eeg signals of available database for emotion analysis using physiological signals, which are recorded from 32 participants during 40 1 min audio visual inductions. according to the results, ar features are efficient to recognize emotional states from eeg signals, and knn performs better than two other classifiers in discriminating of both two and three valence/arousal classes. the results also show that sfs method improves accuracies by almost 10‑15% as compared to davies–bouldin based feature selection. the best accuracies are %72.33 and %74.20 for two classes of valence and arousal and %61.10 and %65.16 for three classes, respectively.

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Journal title:
journal of medical signals and sensors

جلد ۴، شماره ۳، صفحات ۱۹۴-۰

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