This study reports on the development of a gender-specific classification system able to discern between two valence levels of smell, through information gathered from electrodermal activity (EDA) dynamics. Specifically, two odorants were administered to 32 healthy volunteers (16 males) while monitoring EDA. CvxEDA model was used to process the EDA signal and extract features from both tonic and phasic components. The feature set was used as input to a K-NN classifier implementing a leave-one-subject-out procedure. Results show strong differences in the accuracy of valence recognition between men (62.5%) and women (78%). We can conclude that affective olfactory stimulation significantly affect EDA dynamics with a highly specific gender dependency.
Gender-specific automatic valence recognition of affective olfactory stimulation through the analysis of the electrodermal activity / GRECO, ALBERTO; LANATA', ANTONIO; VALENZA, GAETANO; DI FRANCESCO, FABIO; SCILINGO, ENZO PASQUALE. - ELETTRONICO. - Volume 2016:(2016), pp. 399-402. (Intervento presentato al convegno 38th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBC 2016 tenutosi a Orlando (Florida) nel 16/08/2016-20/08/2016) [10.1109/EMBC.2016.7590724].
Gender-specific automatic valence recognition of affective olfactory stimulation through the analysis of the electrodermal activity
LANATA', ANTONIO;
2016
Abstract
This study reports on the development of a gender-specific classification system able to discern between two valence levels of smell, through information gathered from electrodermal activity (EDA) dynamics. Specifically, two odorants were administered to 32 healthy volunteers (16 males) while monitoring EDA. CvxEDA model was used to process the EDA signal and extract features from both tonic and phasic components. The feature set was used as input to a K-NN classifier implementing a leave-one-subject-out procedure. Results show strong differences in the accuracy of valence recognition between men (62.5%) and women (78%). We can conclude that affective olfactory stimulation significantly affect EDA dynamics with a highly specific gender dependency.
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