A stable and fast approach for measuring brillouin frequency shift

Q2 Social Sciences

Advances in Engineering Education Pub Date : 2017-11-01 DOI:10.1109/PIERS-FALL.2017.8293415

Qing Bai, Yu Zhang, Yu Wang, Dong Wang, Bao-quan Jin, Yuncai Wang

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引用次数: 0

Abstract

In a conventional scheme of a Brillouin Optical Time Domain Reflector (BOTDR), an electro-optic modulator (EOM) or an acoustic optical modulator (AOM) is generally utilized to modulate the continuous light into the pulse probe light. However, the fluctuation of the working point will result in the instability of the extinction ratio when an EOM is selected, and a slow modulation speed will bring about the inability of modulating a narrow pulse when an AOM is chosen. In view of the above issue, a scheme for stably modulating the pulse probe light based on a semiconductor optical amplifier (SOA) is proposed. Meanwhile, the scheme integrates a pulse signal source with a synchronous trigger output to simplify the hardware structure of the system. Firstly, a SOA optic pulse modulator is used in the optic link to produce the pulse probe light into the sensing fiber, and coherent detection is used to obtain the beat signal of the Brillouin scattering. Moreover, the microwave frequency-sweeping method is adopted to acquire the variation curves of power with the fiber length at different frequency points. Then, the Brillouin Frequency Shift (BFS) distribution along the sensing fiber can be figured out by processing the acquired original data. Specially, in order to speed the data process, a software kernel of underlying Levenberg-Marquardt algorithm is developed based on C language, and the MFC message response mechanism and multi-thread characteristics are used to build a man-machine interface. Finally, the strain distribution along the fiber can be calculated based on the proportionality coefficient of BFS change versus strain change. The experiment results show that the BFS measurement accuracy of ±3.74 MHz is achieved over a 10.7-kilometer sensing fiber with the spatial resolution of 1.2 m, meanwhile the data processing time is reduced by about 45 times compared to that when using the LabVIEW, which indicates the stable and fast BFS measurement is realized.

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一种稳定快速测量布里渊频移的方法

在传统的布里频光时域反射器(BOTDR)方案中，通常使用电光调制器(EOM)或声光调制器(AOM)将连续光调制成脉冲探测光。然而，当选择一种有源光阑时，工作点的波动会导致消光比的不稳定，而当选择一种有源光阑时，调制速度过慢会导致无法调制窄脉冲。针对上述问题，提出了一种基于半导体光放大器(SOA)的脉冲探测光稳定调制方案。同时，该方案将脉冲信号源与同步触发输出相结合，简化了系统的硬件结构。首先，在光链路中使用SOA光脉冲调制器产生脉冲探测光进入传感光纤，并使用相干检测获得布里渊散射的拍频信号。此外，采用微波扫频法获得了不同频率点功率随光纤长度的变化曲线。然后，通过对采集到的原始数据进行处理，得到传感光纤的布里渊频移(BFS)分布。特别为了加快数据处理速度，基于C语言开发了底层Levenberg-Marquardt算法的软件内核，利用MFC消息响应机制和多线程特性构建了人机界面。最后，根据BFS变化与应变变化的比例系数，计算出沿纤维的应变分布。实验结果表明，在空间分辨率为1.2 m的10.7 km传感光纤上，BFS测量精度达到±3.74 MHz，数据处理时间比使用LabVIEW时减少了约45倍，实现了稳定、快速的BFS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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来源期刊

Advances in Engineering Education Social Sciences-Education

CiteScore

2.90

自引率

0.00%

发文量

期刊介绍： The journal publishes articles on a wide variety of topics related to documented advances in engineering education practice. Topics may include but are not limited to innovations in course and curriculum design, teaching, and assessment both within and outside of the classroom that have led to improved student learning.