Camilo A. R. Díaz scite author profile

Advances in medicine and improvements in life quality has led to an increase in the life expectancy of the general population. An ageing world population have placed demands on the use of assistive technology and, in particular, towards novel healthcare devices and sensors. Besides the electromagnetic field immunity, polymer optical fiber (POF) sensors have additional advantages due to their material features such as high flexibility, lower Young’s modulus (enabling high sensitivity for mechanical parameters), higher elastic limits, and impact resistance. Such advantages are well-aligned with the instrumentation requirements of many healthcare devices and in movement analysis. Aiming at these advantages, this review paper presents the state-of-the-art developments of POF sensors for healthcare applications. A plethora of healthcare applications are discussed, which include movement analysis, physiological parameters monitoring, instrumented insoles, as well as instrumentation of healthcare robotic devices such as exoskeletons, smart walkers, actuators, prostheses, and orthosis. This review paper shows the feasibility of using POF sensors in healthcare applications and, due to the aforementioned advantages, it is possible to envisage a further widespread use of such sensors in this research field in the next few years.

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Liquid Level Measurement Based on FBG-Embedded Diaphragms With Temperature Compensation

Díaz

et al. 2018

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Polymer optical fiber-based sensor for simultaneous measurement of breath and heart rate under dynamic movements

Leal‐Junior

Díaz

Leitão

et al. 2019

Optics & Laser Technology

121

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Low-Cost Interrogation Technique for Dynamic Measurements with FBG-Based Devices

Díaz

Leitão

Marques

et al. 2017

Sensors

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Fiber Bragg gratings are widely used optical fiber sensors for measuring temperature and/or mechanical strain. Nevertheless, the high cost of the interrogation systems is the most important drawback for their large commercial application. In this work, an in-line Fabry–Perot interferometer based edge filter is explored in the interrogation of fiber Bragg grating dynamic measurements up to 5 kHz. Two devices an accelerometer and an arterial pulse wave probe were interrogated with the developed approach and the results were compared with a commercial interrogation monitor. The data obtained with the edge filter are in agreement with the commercial device, with a maximum RMSE of 0.05 being able to meet the requirements of the measurements. Resolutions of 3.6 pm and 2.4 pm were obtained, using the optical accelerometer and the arterial pulse wave probe, respectively.

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Optical Fiber Sensing for Sub-Millimeter Liquid-Level Monitoring: A Review

et al. 2019

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Camilo A. R. Díaz

Polymer Optical Fiber Sensors in Healthcare Applications: A Comprehensive Review

Liquid Level Measurement Based on FBG-Embedded Diaphragms With Temperature Compensation

Polymer optical fiber-based sensor for simultaneous measurement of breath and heart rate under dynamic movements

Low-Cost Interrogation Technique for Dynamic Measurements with FBG-Based Devices

Optical Fiber Sensing for Sub-Millimeter Liquid-Level Monitoring: A Review

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