The presence of stimuli and the consequent reactions undoubtedly reflect in experience-related changes of physiological parameters, which can be monitored by wearable devices. Generally, reactions related to the sympathetic nervous system activity are assessed through heart rate variability analysis. However, the exploitation of multimodal physiological signals provides a broader fingerprint. This study aims to identify the elicitation of acoustic stimulation through a wearable device; physiological signals, including electrodermal activity and skin temperature, were measured on a test population wearing a wrist-worn medical device. Eight machine learning algorithms were evaluated in a binary classification (presence/absence of stimuli), us...
The present research proposes a novel emotion recognition framework for the computer prediction of h...
Monitoring stress and, in general, emotions has attracted a lot of attention over the past few decad...
Measuring psychophysiological signals of adolescents using unobtrusive wearable sensors may contribu...
The presence of stimuli and the consequent reactions undoubtedly reflect in experience-related chang...
Heart Rate Variability (HRV) analysis is widely explored in several application fields, such as emot...
Wearable devices have emerged as the most innovative opportunity to enable acquisition and quantific...
Wearable devices capable of capturing psychophysiological signals are popular. However, such devices...
Emotions are affective states related to physiological responses. This study proposes a model for re...
Most of the existing studies focus on physical activities recognition, such as running, cycling, swi...
This article introduces a new and unobtrusive wearable monitoring device based on electrodermal act...
Measuring concurrent changes in autonomic physiological responses aggregated across individuals (Phy...
Physiological signals (e.g., heart rate, skin conductance) that were traditionally studied in neuros...
This paper evaluates the Galvanic Skin Response (GSR) signals to three different acoustic stimuli, c...
Electrodermal activity (EDA) is an important affective indicator, which is conven- tionally measured...
The popularity of wearable devices, such as smart glasses, chestbands, and wristbands, is nowadaysra...
The present research proposes a novel emotion recognition framework for the computer prediction of h...
Monitoring stress and, in general, emotions has attracted a lot of attention over the past few decad...
Measuring psychophysiological signals of adolescents using unobtrusive wearable sensors may contribu...
The presence of stimuli and the consequent reactions undoubtedly reflect in experience-related chang...
Heart Rate Variability (HRV) analysis is widely explored in several application fields, such as emot...
Wearable devices have emerged as the most innovative opportunity to enable acquisition and quantific...
Wearable devices capable of capturing psychophysiological signals are popular. However, such devices...
Emotions are affective states related to physiological responses. This study proposes a model for re...
Most of the existing studies focus on physical activities recognition, such as running, cycling, swi...
This article introduces a new and unobtrusive wearable monitoring device based on electrodermal act...
Measuring concurrent changes in autonomic physiological responses aggregated across individuals (Phy...
Physiological signals (e.g., heart rate, skin conductance) that were traditionally studied in neuros...
This paper evaluates the Galvanic Skin Response (GSR) signals to three different acoustic stimuli, c...
Electrodermal activity (EDA) is an important affective indicator, which is conven- tionally measured...
The popularity of wearable devices, such as smart glasses, chestbands, and wristbands, is nowadaysra...
The present research proposes a novel emotion recognition framework for the computer prediction of h...
Monitoring stress and, in general, emotions has attracted a lot of attention over the past few decad...
Measuring psychophysiological signals of adolescents using unobtrusive wearable sensors may contribu...