Transmission–Reflection Analysis Using Nanoparticle-Doped Fibers: A Method for Intensity-to-Distance Conversion

IF 2.2 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Mariana Silveira;Arnaldo Leal-Junior;Wilfried Blanc;Camilo A. R. Diaz
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引用次数: 0

Abstract

The transmission–reflection analysis (TRA) is a highly cost-effective distributed sensing technique that monitors the transmitted and backscattered powers of a waveguide. Originally, the TRA was proposed and analytically formulated for single-mode optical fibers (SMFs). However, nanoparticle-doped optical fibers (NPFs) have been currently explored to increase the spatial resolution at the cost of diminishing the sensing range. Due to nonlinearities in Rayleigh backscattering (RBS), the mathematical assumptions made by the traditional SMF model cannot be applied to NPFs. Artificial intelligence has already been applied to a NPF-based TRA system to convert intensity to distance in a quasi-distributed configuration. To exploit NFPs for distributed sensing, this letter presents a method to convert intensity to distance. When strong disturbances were induced on fiber, the method exhibited an error up to 5 cm for a sensing range up to 3 m. For weak disturbances, relative errors up to 14.3 cm were obtained. Adding the noise of the acquisition system, the method yielded errors up to 29.24 cm for a 5.4 m sensor (5.41%).
使用掺纳米粒子光纤的透射-反射分析:从强度到距离的转换方法
传输-反射分析(TRA)是一种极具成本效益的分布式传感技术,可监测波导的传输功率和后向散射功率。透射-反射分析最初是针对单模光纤(SMF)提出和分析的。然而,目前已开始探索掺纳米粒子的光纤(NPF),以提高空间分辨率,但代价是缩小传感范围。由于瑞利后向散射(RBS)的非线性,传统 SMF 模型的数学假设无法应用于 NPF。人工智能已被应用于基于 NPF 的 TRA 系统,在准分布式配置中将强度转换为距离。为了利用 NFP 进行分布式传感,本文介绍了一种将强度转换为距离的方法。当光纤受到强干扰时,该方法在 3 米的传感范围内显示出高达 5 厘米的误差。加上采集系统的噪声,该方法在 5.4 米的传感器上产生的误差高达 29.24 厘米(5.41%)。
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
IEEE Sensors Letters
IEEE Sensors Letters Engineering-Electrical and Electronic Engineering
CiteScore
3.50
自引率
7.10%
发文量
194
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