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Fiber Optic Impact Location System Based on a Tracking Tandem Low-Coherence Interferometer.

Petr V VolkovAndrey LukyanovAlexander GoryunovDaniil SemikovEvgeniy VopilkinStanislav Kraev
Published in: Sensors (Basel, Switzerland) (2023)
This study proposes a method for detecting small-length fluctuations for fiber-optic sensors (FOS). The method is based on a tracking tandem low-coherence interferometer and enables the ability to compensate for temperature and deformation drifts in FOS. As a result, the constant high sensitivity of FOS over a wide frequency range is guaranteed. Sensitivity to the level of 2 nm in the frequency range of 200 kHz has been demonstrated. The operation of the circuit is demonstrated on the example of the 2D location of acoustic signals using a correlation algorithm for signal processing, known as the time reversal method. It is shown that this system enables us to determine the place of the impact on the sample under the test with an accuracy of about 2 cm using a single sensor.
Keyphrases
  • optical coherence tomography
  • high frequency
  • optic nerve
  • machine learning
  • deep learning
  • neural network