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Optical Fiber Temperature Sensing Probe Based on F–P Cavity for Human Body Temperature Monitoring

Haojie Liu, Nian Peng, Wei Meng, Zude Zhou, Quan Liu, Sheng Quan Xie

2024IEEE Sensors Journal12 citationsDOIOpen Access PDF

Abstract

In the exoskeleton-assisted rehabilitation scenarios, sensors need to have strong resistance to environmental interference and long-term monitoring stability. Commonly used body temperature measurement equipment cannot be recorded and worn for long periods. Based on the advantages of optical fiber sensors that are resistant to electromagnetic interference, have strong environmental adaptability, and have good stability after being fabricated and packaged in a specific structure. This article proposes a human body temperature sensing probe that uses capillary copper tubes to encapsulate the F-P cavity structure. The UV glue is applied at the end of the optical fiber and cured to form an F-P microcavity, which is encapsulated with a copper tube for thermal conductivity and protection. It can be fixed anywhere on the body surface with medical tape. Theoretical derivation and numerical simulation are carried out on the interference principle and temperature sensing principle of the F-P cavity. The characteristics of the sensing probe are tested and body temperature monitoring is performed on the human wrist and armpit. The experimental results show that the probe has good stability, repeatability, sensitivity and signal-to-noise ratio. The average standard deviation of the dip wavelength at constant temperature is 16.7 pm. The sensor sensitivity is about 287.3 pm/ °C. The capillary structure makes the temperature response speed faster than that of electronic sensors. The proposed F-P sensing probe can be applied to human body sign information monitoring and feedback in rehabilitation, which is conducive to the realization of efficient and intelligent rehabilitation strategies.

Topics & Concepts

Temperature measurementOptical fiberMaterials scienceOptoelectronicsHuman body temperatureFiber optic sensorFiberOpticsPhysicsComposite materialQuantum mechanicsBiologyPhysiologyAdvanced Fiber Optic Sensors
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