Distributed vibration sensing based on forward transmission and coherent detection
Yaxi Yan, Changjian Guo, Xiong Wu, Ziqi Lin, Xian Zhou, Faisal Nadeem, Khan, Alan Pak Tao Lau, Chao Lu

TL;DR
This paper introduces a new ultra-long distributed vibration sensing system using forward transmission and coherent detection, achieving high SNR and long-range localization of vibrations over 1008 km of fiber.
Contribution
The novel sensing scheme combines forward transmission with coherent detection for ultra-long range vibration detection and localization, surpassing traditional backward scattering methods.
Findings
Achieved over 50dB sensing SNR after long-haul transmission.
Demonstrated localization of vibrations at 400 Hz, 1 kHz, and 10 kHz.
Sensed vibrations with less than 50 m spatial resolution over 1008 km.
Abstract
A novel ultra-long distributed vibration sensing (DVS) system using forward transmission and coherent detection is proposed and experimentally demonstrated. In the proposed scheme, a pair of multi-span optical fibers are deployed for sensing, and a loop-back configuration is used by connecting the two fibers at the far end. The homodyne coherent detection is used to retrieve the phase and state-of-polarization (SOP) fluctuations caused by a vibration while the localization of the vibration is realized by tracking the phase changes along the two fibers. The proposed scheme has the advantage of high signal-to-noise ratio (SNR) and ultra-long sensing range due to the nature of forward transmission and coherent detection. In addition, using forward rather than backward scattering allows detection of high frequency vibration signal over a long sensing range. More than 50dB sensing SNR can be…
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Taxonomy
TopicsAdvanced Fiber Optic Sensors · Optical Network Technologies · Advanced Photonic Communication Systems
