Structural design and performance testing of respiratory sensor based on optical fiber end-face coupling

IF 2.6 3区计算机科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

Optical Fiber Technology Pub Date : 2024-08-23 DOI:10.1016/j.yofte.2024.103946

Zhen-Zhang Hu, Qian-Qian Sun, Chong Zhu, Xin-Qi Su, Ming-Yang Chen, Looh Augustine Ngiejungbwen, Tian-Yi Gong, Ying Liang

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Abstract

An optical fiber sensor based on the principle of intensity modulation is proposed, which is composed of plastic optical fibers and silicone tubes. The displacement measurement is achieved by stretching the optical fibers to cause changes in the angle between the end faces, resulting in changes in the coupling efficiency between the end faces. To address the challenges in the performance calibration of fiber optic respiratory sensors, it is proposed to convert the dynamic characteristics measurement of the respiratory sensor into the static performance analysis of the displacement sensor, so as to obtain the characteristics such as sensitivity, linearity, and repeatability, etc. It is further proposed to use a stepper motor to simulate the periodic stretching process of the optical fibers caused by the respiratory process, enabling the analysis of frequency measurement accuracy under different respiratory strengths. Simulation and experimental results demonstrate that the proposed sensor has high linearity, good repeatability, high sensitivity, and a wide measurement range. It can accurately measure respiratory frequency and display amplitude information, providing comprehensive information for respiratory monitoring.

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基于光纤端面耦合的呼吸传感器的结构设计和性能测试

本文提出了一种基于强度调制原理的光纤传感器，它由塑料光纤和硅胶管组成。位移测量是通过拉伸光纤使端面之间的角度发生变化，从而使端面之间的耦合效率发生变化来实现的。为解决光纤呼吸传感器性能校准方面的难题，建议将呼吸传感器的动态特性测量转换为位移传感器的静态性能分析，从而获得灵敏度、线性度和重复性等特性。此外，还建议使用步进电机来模拟呼吸过程对光纤造成的周期性拉伸过程，从而分析不同呼吸强度下的频率测量精度。仿真和实验结果表明，所提出的传感器线性度高、重复性好、灵敏度高、测量范围宽。它能准确测量呼吸频率并显示振幅信息，为呼吸监测提供了全面的信息。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Optical Fiber Technology 工程技术-电信学

CiteScore

4.80

自引率

11.10%

发文量

327

审稿时长

63 days

期刊介绍： Innovations in optical fiber technology are revolutionizing world communications. Newly developed fiber amplifiers allow for direct transmission of high-speed signals over transcontinental distances without the need for electronic regeneration. Optical fibers find new applications in data processing. The impact of fiber materials, devices, and systems on communications in the coming decades will create an abundance of primary literature and the need for up-to-date reviews. Optical Fiber Technology: Materials, Devices, and Systems is a new cutting-edge journal designed to fill a need in this rapidly evolving field for speedy publication of regular length papers. Both theoretical and experimental papers on fiber materials, devices, and system performance evaluation and measurements are eligible, with emphasis on practical applications.