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Accelerating the phase demodulation process for heterodyne Φ-OTDR using spatial phase shifting

Shuaiqi Liu, Liyang Shao, Feihong Yu, Weihao Lin, Dongrui Xiao, Siming Sun, Shangru Li, Sio Hang Pun, Peng Un Mak, Mang I Vai

2023Optics Letters23 citationsDOI

Abstract

An effective orthogonal signal generation method for heterodyne-detection-based phase-sensitive optical time-domain reflectometer systems is proposed to accelerate the phase demodulation process. The demodulation principle is based on the spatial phase shifting technique. By exploiting the relative phase difference between adjacent spatial sampling channels, the orthogonal signal is easily obtained from basic algebra calculations. The simulation and experimental results showed that the proposed method achieved >100% computation speed improvement compared with the conventional methods, with a slight trade-off in phase demodulation performance. Therefore, the proposed method is potentially beneficial for the distributed acoustic sensing technology for reducing the computation complexity of phase demodulation procedures.

Topics & Concepts

DemodulationHeterodyne (poetry)Heterodyne detectionOpticsComputer sciencePhase (matter)Optical time-domain reflectometerSIGNAL (programming language)Sampling (signal processing)ComputationPhase modulationElectronic engineeringPhase noiseAlgorithmTelecommunicationsPhysicsOptical fiberFiber optic sensorAcousticsFiber optic splitterEngineeringDetectorChannel (broadcasting)LaserQuantum mechanicsProgramming languageAdvanced Fiber Optic SensorsPhotonic and Optical DevicesAdvanced Fiber Laser Technologies