Photoplethysmography (PPG) is a non-invasive technique that by means of light interactionwith the skin, allows extracting physiological parameters such as heart rate orblood oxygen saturation, among others. Due to factors such as body location, movement artifacts, contact pressure or temperature, the PPG signal gets easily distorted. This distortion limits the use of this technique for constant monitoring. In this study, it is presented novel PPG sensor structures that aim to improve the acquisition robustness so that photoplethysmography can be used for constant multi-modal physiological sensing. Following the {\textquoteright}banana region{\textquoteright} theory, that defines the interaction of light with skin, thesource-emitter distances and the number of components in the sensor were optimized for green and red light. Additionally, it is suggested that the sternum would be the ideal body location for constant monitoring.
Sole Morillo, A, Stiens, J, Van Wittenberghe, E & Malbrain, M 2019, 'A low-cost system for continuous vital sign monitoring using the technology behind pulse-oximeters', 18th National Day on Biomedical Engineering, Brussels, Belgium, 29/11/18 - 29/11/19.
Sole Morillo, A., Stiens, J., Van Wittenberghe, E., & Malbrain, M. (2019). A low-cost system for continuous vital sign monitoring using the technology behind pulse-oximeters. Poster session presented at 18th National Day on Biomedical Engineering, Brussels, Belgium.
@conference{90333ad8f2654e8c8b7bec29a8c7e870,
title = "A low-cost system for continuous vital sign monitoring using the technology behind pulse-oximeters",
abstract = "Photoplethysmography (PPG) is a non-invasive technique that by means of light interactionwith the skin, allows extracting physiological parameters such as heart rate orblood oxygen saturation, among others. Due to factors such as body location, movement artifacts, contact pressure or temperature, the PPG signal gets easily distorted. This distortion limits the use of this technique for constant monitoring. In this study, it is presented novel PPG sensor structures that aim to improve the acquisition robustness so that photoplethysmography can be used for constant multi-modal physiological sensing. Following the {\textquoteright}banana region{\textquoteright} theory, that defines the interaction of light with skin, thesource-emitter distances and the number of components in the sensor were optimized for green and red light. Additionally, it is suggested that the sternum would be the ideal body location for constant monitoring.",
author = "{Sole Morillo}, Angel and Johan Stiens and {Van Wittenberghe}, Eowyn and Manu Malbrain",
year = "2019",
month = nov,
day = "29",
language = "English",
note = "18th National Day on Biomedical Engineering, NCBME ; Conference date: 29-11-2018 Through 29-11-2019",
}