2.确定系统结构方案,

光纤温度测量系统的设计(光电子技术科学)(论文10000字)
摘 要:以光纤通信和光纤传感技术为代表的信息技术和传感技术在20世纪后半叶至今的几十年里。
3.搭建实验系统进行相关温度测试实验,主要内容及创新点如下:
1.从经典电磁学理论和量子学理论阐述了拉曼散射的原理。分布式光纤温度传感器能探测到的含有温度信息喇曼后向散射光非常微弱,介绍了系统器件的主要功能及指标参数。
本文主要完成了分布式光纤拉曼测温系统的整体设计及温度实验,以惊人的速度发展、扩散,以及还具有抗电磁干扰、尺码小、对被测温度场的影响小、防燃等其他传感器无法比拟的优点。
分布式光纤温度传感器中的光纤既是传输介质又是传感介质,因此必须采用微弱信号检测技术。分布式光纤温度测量系统能在整条的光纤长度上,并做了相关的理论分析及优化,已距离的连续函数形式传感出被测温度随光纤长度方向的变化。目前这项技术已成为光纤传感器技术中最具有领先的技术之一。对反斯托克斯和斯托克斯后向散射光的消除噪声的水平直接关系整个系统的测温精度,极大地推动了人类社会的进步。

关键词:喇曼散射;分布式测温;光纤传感器
Abstract:The information technology and sensing technology represented as fiber communication and fiber sensing are strongly developed in this several decades, which immensely accelerates the progress of human society.Nowadays, this has been one of the most promising technology in fiber optic sensor. The fiber optic distributed temperature sensor system can sens a the change of temperature along the optical fiber by the form of continuous function of distance.
The fiber used in fiber optic distributed sensor is not only transport media but also sensing media. It has the characteristics of resistance  to electromagnetic interfere, against fire, small size and little effect to temperature field. The back scattering Raman signal with the information of temperature is quite weak and even completely submerged in noise. The measurement accuracy of the whole system has relationship with the denoising level to anti-Stokes and Stokes back scattering. Weak signal measurement is must be used in this system.
The main contents and innovation are as follows:
1.The Raman scattering theory was analyzed from traditional electromagnetic theory
and quantum theory.
2.The experiment system design was determined and technical characteristics of each
device were introduced.
3.Experiments about temperature measurements were completed.
4.A dual-points temperature demodulating method was proposed to estimate the channels amplifications and system DC offsets.
KeyWords: Raman scattering; distributed temperature measurement; optical fiber sensor

摘 要    4
引言    5
1. 绪论    6
1.1 应用背景及国内研究现状    6
1.2 分布式光纤测温系统发展及应用    7
1.2.1 分布式光纤测温系统国内发展现状    7
1.2.2 分布式光纤测温系统国内发展现状    8
1.2.3 分布式光纤温度测量技术的巨大应用领域    8
2. 分布式光纤测温系统的理论基础    9
2.1 喇曼散射    9
2.1.1 喇曼散射现象的经典理论    9
2.2 喇曼散射原理    11
2.3 拉里散射的测温原理    13
3. 分布式光纤温度传感系统的总体方案设计    16
3.1 引言    16
3.2 分布式光纤温度传感系统的结构    16
3.2.1 系统结构    16
3.2.2 系统器件选择    17
4. 结束语    18
参考文献    19

,甚至完全淹没在噪声里。详细分析了数据处理过程及实验结果

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