Gutiérrez-MartÃn, L.; Romero-Perales, E.; de Baranda Andújar, C.S.; F. Canabal-Benito, M.; RodrÃguez-Ramos, G.E.; Toro-Flores, R.; López-Ongil, S.; López-Ongil, C.
Fear Detection in Multimodal Affective Computing: Physiological Signals versus Catecholamine Concentration. Sensors 2022, 22, 4023.
https://doi.org/10.3390/s22114023
AMA Style
Gutiérrez-MartÃn L, Romero-Perales E, de Baranda Andújar CS, F. Canabal-Benito M, RodrÃguez-Ramos GE, Toro-Flores R, López-Ongil S, López-Ongil C.
Fear Detection in Multimodal Affective Computing: Physiological Signals versus Catecholamine Concentration. Sensors. 2022; 22(11):4023.
https://doi.org/10.3390/s22114023
Chicago/Turabian Style
Gutiérrez-MartÃn, Laura, Elena Romero-Perales, Clara Sainz de Baranda Andújar, Manuel F. Canabal-Benito, Gema Esther RodrÃguez-Ramos, Rafael Toro-Flores, Susana López-Ongil, and Celia López-Ongil.
2022. "Fear Detection in Multimodal Affective Computing: Physiological Signals versus Catecholamine Concentration" Sensors 22, no. 11: 4023.
https://doi.org/10.3390/s22114023
APA Style
Gutiérrez-MartÃn, L., Romero-Perales, E., de Baranda Andújar, C. S., F. Canabal-Benito, M., RodrÃguez-Ramos, G. E., Toro-Flores, R., López-Ongil, S., & López-Ongil, C.
(2022). Fear Detection in Multimodal Affective Computing: Physiological Signals versus Catecholamine Concentration. Sensors, 22(11), 4023.
https://doi.org/10.3390/s22114023