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High-performance distributed dynamic strain sensing by synthesizing φ-OTDR and BOTDR

Haoting Wu, Nan Guo, Zixuan Zhong, Wencun Guo, Lei Han, Chongjian Li, Meng Di, Guolu Yin, Tao Liu, Tao Zhu

2023Optics Express19 citationsDOIOpen Access PDF

Abstract

We propose and demonstrate a high-performance distributed dynamic absolute strain sensing technique by synthesizing φ-OTDR and BOTDR. The technique synthesizes the relative strain obtained by the φ-OTDR part and the initial strain offset estimated by fitting the relative strain with the absolute strain signal from the BOTDR part. As a result, it provides not only the characteristics of high sensing accuracy and high sampling rate like φ-OTDR, but also the absolute strain measurement and the large sensing dynamic range like BOTDR. The experiment results indicate the proposed technique can realize the distributed dynamic absolute strain sensing with a sensing dynamic range of over 2500 µɛ, a peak-to-peak amplitude of 1165 µɛ, and a wide frequency response range from 0.1 to over 30 Hz over a sensing range of about 1 km.

Topics & Concepts

Optical time-domain reflectometerDynamic rangeOffset (computer science)OpticsDistributed acoustic sensingStrain (injury)Range (aeronautics)High dynamic rangeAmplitudeMaterials scienceFiber optic sensorOptical fiberComputer sciencePhysicsPolarization-maintaining optical fiberComposite materialProgramming languageInternal medicineMedicineAdvanced Fiber Optic SensorsAnalytical Chemistry and SensorsAdvanced MEMS and NEMS Technologies
High-performance distributed dynamic strain sensing by synthesizing φ-OTDR and BOTDR | Litcius