Xefteris, V.-R.; Dominguez, M.; Grivolla, J.; Tsanousa, A.; Zaffanela, F.; Monego, M.; Symeonidis, S.; Diplaris, S.; Wanner, L.; Vrochidis, S.;
et al. A Multimodal Late Fusion Framework for Physiological Sensor and Audio-Signal-Based Stress Detection: An Experimental Study and Public Dataset. Electronics 2023, 12, 4871.
https://doi.org/10.3390/electronics12234871
AMA Style
Xefteris V-R, Dominguez M, Grivolla J, Tsanousa A, Zaffanela F, Monego M, Symeonidis S, Diplaris S, Wanner L, Vrochidis S,
et al. A Multimodal Late Fusion Framework for Physiological Sensor and Audio-Signal-Based Stress Detection: An Experimental Study and Public Dataset. Electronics. 2023; 12(23):4871.
https://doi.org/10.3390/electronics12234871
Chicago/Turabian Style
Xefteris, Vasileios-Rafail, Monica Dominguez, Jens Grivolla, Athina Tsanousa, Francesco Zaffanela, Martina Monego, Spyridon Symeonidis, Sotiris Diplaris, Leo Wanner, Stefanos Vrochidis,
and et al. 2023. "A Multimodal Late Fusion Framework for Physiological Sensor and Audio-Signal-Based Stress Detection: An Experimental Study and Public Dataset" Electronics 12, no. 23: 4871.
https://doi.org/10.3390/electronics12234871
APA Style
Xefteris, V.-R., Dominguez, M., Grivolla, J., Tsanousa, A., Zaffanela, F., Monego, M., Symeonidis, S., Diplaris, S., Wanner, L., Vrochidis, S., & Kompatsiaris, I.
(2023). A Multimodal Late Fusion Framework for Physiological Sensor and Audio-Signal-Based Stress Detection: An Experimental Study and Public Dataset. Electronics, 12(23), 4871.
https://doi.org/10.3390/electronics12234871
