Abstract
Investigating gender differences based on emotional changes supports automatic interpretation of human intentions and preferences. This allows emotion applications to respond better to requirements and customize interactions based on affective responses. The electroencephalogram (EEG) is a tool that potentially can be used to detect gender differences. The main purpose of this paper is twofold. Firstly, it aims to use both linear and nonlinear features of EEG signals to identify emotional influences on gender behavior. Secondly, it aims to develop an automatic gender recognition model by employing optimization algorithms to identify the most effective channels for gender identification from emotional-based EEG signals. The EEGs of thirty healthy students from the University of Vienna were recorded while they were watched four short video clips depicting the emotions of anger, happiness, sadness and neutral. In this study, the wavelet transform (WT) de-noising technique, linear spectral mean frequency ( meanF) and nonlinear multiscale fuzzy entropy ( MFE) features were used. The individual performance of these attributes was statistically examined using analysis of variance (ANOVA) to represent the gender behavior in the brain-emotion in females and males. Then, these two features were fused into a set of hybrid spectral-entropy attributes ( SEA). Consequently, optimization algorithms including binary gravitation search algorithm (BGSA) and binary particle swarm optimization (BPSO), were employed to identify the optimal channels for gender classification. Finally, the k-nearest neighbors ( kNN) classification technique was used for automatic gender identification of an emotional-based EEG dataset. The results show linear and nonlinear features are remarkable neuromarkers for investigating gender-based differences in emotional states. Moreover, the results show significant enhancement in the overall accuracy of classification achieved by using the BGSA optimization algorithm with the proposed hybrid SEA set when compared to individual features. Therefore, the proposed methods were effective in improving the process of automatic gender recognition from the emotional-based EEG signals.
Highlights
I NVESTIGATING gender-based differences in emotions is essential to understanding the changes in behavior of individuals across their lifespan
Statistical analyses were performed to describe the gender differences based on the physiological meaning of the extracted features
The hypothesis to characterize gender based on their behavior from different emotional states was considered
Summary
I NVESTIGATING gender-based differences in emotions is essential to understanding the changes in behavior of individuals across their lifespan. Automatic interpretation of human emotions, intentions and preferences helping in emotion applications to respond better to users’ requirements and customize interactions based on affective responses [1], [2]. Gender differences dependent on emotional processing has attracted particular interest because of its possible application in understanding human psychopathologies, such as depression and anxiety. The discrete model is comprise of multiple, distinct emotional states that identifies basic feelings (anger, fear, disgust, surprise, happiness, and sadness), and all different feelings are viewed as an aspect of these essential emotions or a combination of them [4], [5]. The dimensional model is a two-dimensional (2D) cognitiveemotional state model that is used to broadly utilized in mapping the emotion onto the valance-arousal graph, as described in the Russell’s circumplex model of emotion [6], [7]
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