Wearable Conformal Fiber Sensor for High Fidelity Physiological Measurements

Wearable Conformal Fiber Sensor for High Fidelity Physiological Measurements

Wearable devices are becoming increasingly important, addressing needs in both the fitness and the medical markets. In this article, we describe a novel sensing platform based on a hollow-core polyurethane optical fiber, operating through capillary guidance, that acts as a conformal sensor of pressu...

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Veröffentlicht in:IEEE journal of selected topics in quantum electronics 2024-11, Vol.30 (6: Advances and Applications of Hollow-Core Fibers), p.1-9
Hauptverfasser: Stefani, Alessio, Rukhlenko, Ivan D., Runge, Antoine F. J., Large, Maryanne C. J., Fleming, Simon C.
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
Biomedical monitoring
black fibers
Capillary fibers
Capillary pressure
Deformation
Formability
Material properties
Monitoring
Optical device fabrication
Optical fiber sensors
Optical fibers
Optical properties
Optical variables measurement
polymers
Polyurethane resins
Pulse measurements
Real time
Sensor arrays
wearable health monitoring
wearable sensors
Wearable technology
Wrist
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Beschreibung
Zusammenfassung:Wearable devices are becoming increasingly important, addressing needs in both the fitness and the medical markets. In this article, we describe a novel sensing platform based on a hollow-core polyurethane optical fiber, operating through capillary guidance, that acts as a conformal sensor of pressure or deformation. The novelty is achieved by combining a simple structure (hollow capillary) and a simple detection technique (intensity-based measurement) with unconventional material properties (extreme deformability and high optical absorbance). Used on the wrist and ankle, the sensor allows detailed features of the cardiac pulse wave to be identified with high fidelity, while on the chest it allows the simultaneous measurement of breathing rate and walking cadence. Used together, an array of such sensors (with others) could be incorporated into clothing and provide physiologically rich real-time data for health monitoring.
ISSN:1077-260X
1558-4542
DOI:10.1109/JSTQE.2023.3296470