Challenges and Opportunities in Collecting and Modeling Ambulatory Electrodermal Activity Data

Journals

1. Thammasan N, Stuldreher I, Schreuders E, Giletta M, Brouwer A. A Usability Study of Physiological Measurement in School Using Wearable Sensors. Sensors 2020;20(18):5380 View
2. Tronstad C, Amini M, Bach D, Martinsen Ø. Current trends and opportunities in the methodology of electrodermal activity measurement. Physiological Measurement 2022;43(2):02TR01 View
3. de Looff P, Duursma R, Noordzij M, Taylor S, Jaques N, Scheepers F, de Schepper K, Koldijk S. Wearables: An R Package With Accompanying Shiny Application for Signal Analysis of a Wearable Device Targeted at Clinicians and Researchers. Frontiers in Behavioral Neuroscience 2022;16 View
4. Whiston A, Igou E, Fortune D, Analog Devices Team , Semkovska M. Examining Stress and Residual Symptoms in Remitted and Partially Remitted Depression Using a Wearable Electrodermal Activity Device: A Pilot Study. IEEE Journal of Translational Engineering in Health and Medicine 2023;11:96 View
5. Valenzuela‐Pascual C, Mas A, Borràs R, Anmella G, Sanabra M, González‐Campos M, Valentí M, Pacchiarotti I, Benabarre A, Grande I, De Prisco M, Oliva V, Bastidas A, Agasi I, Young A, Garriga M, Murru A, Corponi F, Li B, de Looff P, Vieta E, Hidalgo‐Mazzei D. Sleep–wake variations of electrodermal activity in bipolar disorder. Acta Psychiatrica Scandinavica 2024 View