Haokun Mi scite author profile

Phase Sensitive Optical Time Domain Reflector (φ-OTDR) is widely used due to its characteristics of distributed sensing, high sensitivity, quantitative measurement and fast dynamic response. However, as the sensing distance of the system increases, the reflected optical power of the system decreases gradually, resulting in a decrease in the signal-to-noise ratio of the demodulated signal. In this paper, a fiber Bragg grating (FBG) array is used as the sensor, and a fiber Bragg grating array-based φ-OTDR coding system is proposed to eliminate the interference fading of the fiber optic φ-OTDR coding system and improve the signal-to-noise ratio of the system. First, we deduce the codec theory based on fiber Bragg grating φ-OTDR. Then, in the verification experiment, the 32-bit Golay code was used to achieve a signal-tonoise ratio of 33.7 dB at the end of the fiber Bragg grating array with an interval of 15 m and a length of 1 km, which was 6.2 dB higher than that of the single-pulse system.

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Effects of strain and temperature change on the spectra of superstructure fiber gratings

Liang

Wang

et al. 2011

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Haokun Mi

Design of a ultrahigh-sensitivity SPR-based optical fiber pressure sensor

Study on magnetic coupling FBG displacement sensor

A Fiber Bragg Grating Accelerometer Based on Novel Biaxial Arc Hinge

SNR enhancement of fiber Bragg grating array-based φ-OTDR using pulse coding

Effects of strain and temperature change on the spectra of superstructure fiber gratings

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