TY - GEN
T1 - Overview of the Methods and Applications of Electrodermal Activity Assessment and Its Relation with Electrotactile Feedback and Potential Use in Automated Calibration
AU - Boljanić, Tanja
AU - Štrbać, Matija
AU - Kostić, Miloš
AU - Malešević, Jovana
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - This paper presents an overview of the Electrodermal Activity (EDA) applications and methods for signal analysis, as it is a tool that has a wide range of potential uses in monitoring of user's wellbeing. Significant correlations have been shown between EDA and stress, both when induced through external stimulation (auditory, visual, pain, etc.), cognitive load or physiological strain (heat, dehydration, intense physical activity). Also, along with the heartrate it is one of the least intrusive parameters to be measured and requires relatively simple signal processing. All of this makes it a highly promising tool in a number of applications. However, naturally occurring variability between subjects and between different measurement sessions of the same subjects require significant effort in the experimental setup, as well as meticulous calibration procedures, in order to obtain reliable results. This largely limits the use of EDA to highly controlled laboratory or clinical conditions, significantly limiting its real-world impact. There is an observed connection between the EDA responses and electrotactile stimulation which can be highly controlled. This may potentially be used in an automated calibration procedure that can be rapidly performed before each monitoring session and would not require any expertise of the end user. Here we introduce this hypothesis to lay the foundation for the future experimental work.
AB - This paper presents an overview of the Electrodermal Activity (EDA) applications and methods for signal analysis, as it is a tool that has a wide range of potential uses in monitoring of user's wellbeing. Significant correlations have been shown between EDA and stress, both when induced through external stimulation (auditory, visual, pain, etc.), cognitive load or physiological strain (heat, dehydration, intense physical activity). Also, along with the heartrate it is one of the least intrusive parameters to be measured and requires relatively simple signal processing. All of this makes it a highly promising tool in a number of applications. However, naturally occurring variability between subjects and between different measurement sessions of the same subjects require significant effort in the experimental setup, as well as meticulous calibration procedures, in order to obtain reliable results. This largely limits the use of EDA to highly controlled laboratory or clinical conditions, significantly limiting its real-world impact. There is an observed connection between the EDA responses and electrotactile stimulation which can be highly controlled. This may potentially be used in an automated calibration procedure that can be rapidly performed before each monitoring session and would not require any expertise of the end user. Here we introduce this hypothesis to lay the foundation for the future experimental work.
KW - Calibration
KW - EDA
KW - Electrical stimulation
KW - GSR
KW - Health Monitoring
KW - Variability
UR - http://www.scopus.com/inward/record.url?scp=85204051707&partnerID=8YFLogxK
U2 - 10.1109/IcETRAN62308.2024.10645183
DO - 10.1109/IcETRAN62308.2024.10645183
M3 - Conference contribution
AN - SCOPUS:85204051707
T3 - Proceedings - 2024 11th International Conference on Electrical, Electronic and Computing Engineering, IcETRAN 2024
BT - Proceedings - 2024 11th International Conference on Electrical, Electronic and Computing Engineering, IcETRAN 2024
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 11th International Conference on Electrical, Electronic and Computing Engineering, IcETRAN 2024
Y2 - 3 June 2024 through 6 June 2024
ER -