Error Analysis and Measurement Uncertainty for a Fiber Grating Strain-Temperature Sensor

机译：光纤光栅应变温度传感器的误差分析和测量不确定度

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摘要

A fiber grating sensor capable of distinguishing between temperature and strain, using a reference and a dual-wavelength fiber Bragg grating, is presented. Error analysis and measurement uncertainty for this sensor are studied theoretically and experimentally. The measured root mean squared errors for temperature T and strain ε were estimated to be 0.13 °C and 6 με, respectively. The maximum errors for temperature and strain were calculated as 0.00155 T + 2.90 × 10⁻⁶ ε and 3.59 × 10⁻⁵ ε + 0.01887 T, respectively. Using the estimation of expanded uncertainty at 95% confidence level with a coverage factor of k = 2.205, temperature and strain measurement uncertainties were evaluated as 2.60 °C and 32.05 με, respectively. For the first time, to our knowledge, we have demonstrated the feasibility of estimating the measurement uncertainty for simultaneous strain-temperature sensing with such a fiber grating sensor.

机译：提出了一种能够使用参考和双波长光纤布拉格光栅来区分温度和应变的光纤光栅传感器。从理论上和实验上研究了该传感器的误差分析和测量不确定度。测得的温度T和应变ε的均方根误差分别为0.13°C和6με。温度和应变的最大误差分别为0.00155 T + 2.90×10 ^{-6 ε和3.59×10 ^{-5 ε+ 0.01887T。使用覆盖系数k = 2.205时在95％置信度下的扩展不确定性的估计，温度和应变测量的不确定性分别为2.60°C和32.05με。就我们所知，这是我们首次展示了用这种光纤光栅传感器估算同时进行应变温度传感的测量不确定度的可行性。}}

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期刊名称 Sensors (Basel Switzerland)
作者
Jaw-Luen Tang; Jian-Neng Wang;
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作者单位

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年(卷),期 2010(10),7
年度 2010
页码 6582–6593
总页数 12
原文格式 PDF
正文语种
中图分类
关键词
fiber Bragg grating sensor strain temperature error analysis measurement uncertainty;

机译：布拉格光纤光栅;传感器;应变;温度;误差分析;测量不确定度;

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专利

1. Error Analysis and Measurement Uncertainty for a Fiber Grating Strain-Temperature Sensor [J] . Jaw-Luen Tang, Jian-Neng Wang Sensors . 2010,第7期

机译：光纤光栅应变温度传感器的误差分析和测量不确定度
2. Real-time measurement of temperature field in heavy-duty machine tools using fiber Bragg grating sensors and analysis of thermal shift errors [J] . Huang Jun, Zhou Zude, Liu Mingyao, Mechatronics: The Science of Intelligent Machines . 2015,第Null期

机译：使用光纤布拉格光栅传感器实时测量重型机床中的温度场并分析热位移误差
3. Impact of Apodization Profile on Performance of Fiber Bragg Grating Strain-Temperature Sensor [J] . Shaymaa R. Tahhan, Mudhafar Hussein Ali, Marwah Ali Zaidan Al-Ogaidi, Journal of Communications . 2019,第1期

机译：切趾轮廓对光纤布拉格光栅应变温度传感器性能的影响
4. Fiber Bragg grating sensors for use in pavement structural strain-temperature monitoring [C] . Jian-Neng Wang, Jaw-Luen Tang, Hsiang-Ping Chang Conference on Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems; 20060227-0302; San Diego,CA(US) . 2006

机译：光纤布拉格光栅传感器，用于路面结构应变温度监测
5. Fiber-Optic Sensors Based on Fiber Bragg Gratings for Dynamic Strain Measurement [D] . Zhu, Yupeng. 2020

机译：基于光纤布拉格光栅的光纤传感器用于动态应变测量
6. Analysis of Reliability of Strain Measurements Made with the Fiber Bragg Grating Sensor Rosettes Embedded in a Polymer Composite Material [O] . Valerii Matveenko, Natalia Kosheleva, Grigorii Serovaev, 2021

机译：用聚合物复合材料嵌入纤维布拉格光栅传感器玫瑰丝膜的应变测量可靠性分析
7. Error Analysis and Measurement Uncertainty for a Fiber Grating Strain-Temperature Sensor [O] . Tang, Jaw-Luen, Wang, Jian-Neng 2010

机译：光纤光栅应变温度传感器的误差分析和测量不确定度

Error Analysis and Measurement Uncertainty for a Fiber Grating Strain-Temperature Sensor

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