模拟带倾斜栅格的光纤布拉格传感器

IF 1.6 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
A. Kalizhanova, Murat Kunelbayev, A. Kozbakova, Zhalau Aitkulov
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引用次数: 0

摘要

本研究考虑的问题是开发一种具有倾斜栅格的光纤布拉格传感器及其在建筑物中使用的模型。这项研究的一个重要特点是,在光纤上制造光纤传感器之前,仿真模型的结果将使人们清楚地了解传感器的实际生产参数,并考虑到传感器的特性。在这项研发中,利用仿真模型解决了因变形变化而导致的反射信号波长微小偏移的检测问题,从而在光损耗和强度波动的情况下仍能提供可重复的测量结果。工作中使用了传递矩阵法,这种方法可以考虑任意形状的折射率剖面。传递矩阵法可以根据耦合模式理论和通过光纤的电磁波的矩阵描述来确定光学元件的光谱特性。研究结果表明,布拉格晶格的光谱信号功率密度和时间特性是晶格电压、应变和温度变化的结果。该研究的主要贡献是开发了光纤布拉格传感器子系统的仿真模型,该模型表明,在 FBG 的高斯反射光谱中,边叶功率完全最小,MATLAB(Simulink)的结果与光学晶格的结果非常一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulation of a Fiber-Optic Bragg Sensor with a Tilted Grid
The study considers the problem of developing a fiber-optic Bragg sensor with a tilted grid and its modeling used in buildings. An important feature of this study is that before manufacturing a fiber-optic sensor on an optical fiber, the results of the simulation model will give a clear idea of the actual production parameters for which the sensors are manufactured, taking into account their characteristics. In this development, using a simulation model, the problem of detecting a small wavelength shift in the reflected signal due to deformation changes is solved, providing reproducible measurements despite optical losses and intensity fluctuations. The transfer matrix method was used in the work, which allows taking into account the refractive index profiles of arbitrary shape. The transfer matrix method makes it possible to determine the spectral characteristics of optical components based on the theory of coupled modes and in the matrix description of an electromagnetic wave passing through an optical fiber. As a result of the study, spectral signal power densities and time characteristics of the Bragg lattice were obtained as a result of changes in the voltage, strain and temperature of the lattice. The main contribution of the study is the developed simulation model of the subsystem for fiber Bragg sensors, which shows that the power of the side lobes is completely minimized in the Gaussian reflection spectrum of FBG, and the results of MATLAB (Simulink) are in excellent agreement with the results of the optical lattice.
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来源期刊
IEEE Instrumentation & Measurement Magazine
IEEE Instrumentation & Measurement Magazine 工程技术-工程:电子与电气
CiteScore
4.20
自引率
4.80%
发文量
147
审稿时长
>12 weeks
期刊介绍: IEEE Instrumentation & Measurement Magazine is a bimonthly publication. It publishes in February, April, June, August, October, and December of each year. The magazine covers a wide variety of topics in instrumentation, measurement, and systems that measure or instrument equipment or other systems. The magazine has the goal of providing readable introductions and overviews of technology in instrumentation and measurement to a wide engineering audience. It does this through articles, tutorials, columns, and departments. Its goal is to cross disciplines to encourage further research and development in instrumentation and measurement.
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