Concatenated Bragg grating fiber-optic sensors for simultaneous measurement of curvature, temperature, and axial pressure

Pub Date : 2024-07-08 DOI:10.5194/jsss-13-147-2024

Sohrab Shojaei Khatouni, Sven Zakowski, Reza Hosseini Vedad, Mustafa Masjedi, Akram Askar, Jan Christian Eli Ewald, H. Trieu

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Abstract

Abstract. This paper presents the development and evaluation of four sensors based on multiple fiber Bragg grating (FBG) constellations embedded in a silicon dioxide single-mode fiber (SMF) for simultaneous measurement of pressure, temperature, and bending curvature. We applied dimension and material variations – including core, cladding, and coating dimensions; coating material; and the number and arrangement of the FBGs – to optimize the reflected signal response and increase information density. A bootstrap-aggregated ensemble of decision trees was used to evaluate the sensor signal. The results show that adjusting the cladding-to-coating ratio led to significant improvements in pressure and bending prediction performance. Additionally, two combined FBGs were fabricated to form a fiber Bragg grating Fabry–Pérot interferometer, which enabled the detection of curvature with a root-mean-square error (RMSE) of 0.0034 L mm−1 (R2=1), axial pressure with an RMSE of 0.0564 bar (R2=0.99), and temperature with an RMSE of 0.0265 °C (R2=1). At the time of writing, there is no commercially available instrument that can perform these measurements simultaneously.

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同时测量曲率、温度和轴向压力的并联布拉格光栅光纤传感器

摘要本文介绍了基于嵌入二氧化硅单模光纤 (SMF) 的多个光纤布拉格光栅 (FBG) 星群的四种传感器的开发和评估，用于同时测量压力、温度和弯曲曲率。我们应用了尺寸和材料变化--包括纤芯、包层和涂层尺寸；涂层材料；以及 FBG 的数量和排列--来优化反射信号响应并提高信息密度。采用自举法聚合决策树来评估传感器信号。结果表明，调整包层与涂层的比例可显著提高压力和弯曲预测性能。此外，还制作了两个组合式 FBG，以形成光纤布拉格光栅法布里-佩罗干涉仪，从而能够检测曲率，均方根误差 (RMSE) 为 0.0034 L mm-1 (R2=1)，轴向压力 RMSE 为 0.0564 bar (R2=0.99)，温度 RMSE 为 0.0265 °C (R2=1)。在撰写本报告时，还没有一种商用仪器可以同时进行这些测量。

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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