Measuring psychophysiological signals of adolescents using unobtrusive wearable sensors may contribute to understanding the development of emotional disorders. This study investigated the feasibility of measuring high quality physiological data and examined the validity of signal processing in a school setting. Among 86 adolescents, a total of more than 410 h of electrodermal activity (EDA) data were recorded using a wrist-worn sensor with gelled electrodes and over 370 h of heart rate data were recorded using a chest-strap sensor. The results support the feasibility of monitoring physiological signals at school. We describe specific challenges and provide recommendations for signal analysis, including dealing with invalid signals due to lo...
Using sensors to gather physiological data about users can provide valuable insights for Information...
Automated tracking of physical fitness has sparked a health revolution by allowing individuals to tr...
Monitoring physiological parameters under stress conditions – i.e., heart rate, breath frequency or ...
Measuring psychophysiological signals of adolescents using unobtrusive wearable sensors may contribu...
Thesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Com...
Appropriate teaching–learning strategies lead to student engagement during learning activities. Scie...
The present study evaluated the feasibility and social validity of using a wearable technology to de...
Measuring concurrent changes in autonomic physiological responses aggregated across individuals (Phy...
The assessment of learning during class activities mostly relies on standardized questionnaires to e...
Wearable devices have emerged as the most innovative opportunity to enable acquisition and quantific...
Abstract Wearable sensors have become more commonly used in everyday basis and powerful in terms of...
With continued advancements in wearable technologies, the applications for their use are growing. We...
Wearable sensors are promising instruments for conducting both laboratory and ambulatory research in...
Wearable sensors are promising instruments for conducting both laboratory and ambulatory research in...
The capability of monitoring user’s performance represents a crucial aspect to improve safety and ef...
Using sensors to gather physiological data about users can provide valuable insights for Information...
Automated tracking of physical fitness has sparked a health revolution by allowing individuals to tr...
Monitoring physiological parameters under stress conditions – i.e., heart rate, breath frequency or ...
Measuring psychophysiological signals of adolescents using unobtrusive wearable sensors may contribu...
Thesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Com...
Appropriate teaching–learning strategies lead to student engagement during learning activities. Scie...
The present study evaluated the feasibility and social validity of using a wearable technology to de...
Measuring concurrent changes in autonomic physiological responses aggregated across individuals (Phy...
The assessment of learning during class activities mostly relies on standardized questionnaires to e...
Wearable devices have emerged as the most innovative opportunity to enable acquisition and quantific...
Abstract Wearable sensors have become more commonly used in everyday basis and powerful in terms of...
With continued advancements in wearable technologies, the applications for their use are growing. We...
Wearable sensors are promising instruments for conducting both laboratory and ambulatory research in...
Wearable sensors are promising instruments for conducting both laboratory and ambulatory research in...
The capability of monitoring user’s performance represents a crucial aspect to improve safety and ef...
Using sensors to gather physiological data about users can provide valuable insights for Information...
Automated tracking of physical fitness has sparked a health revolution by allowing individuals to tr...
Monitoring physiological parameters under stress conditions – i.e., heart rate, breath frequency or ...