Sensors (May 2024)

Environmental Surveillance through Machine Learning-Empowered Utilization of Optical Networks

  • Hasan Awad,
  • Fehmida Usmani,
  • Emanuele Virgillito,
  • Rudi Bratovich,
  • Roberto Proietti,
  • Stefano Straullu,
  • Francesco Aquilino,
  • Rosanna Pastorelli,
  • Vittorio Curri

DOI
https://doi.org/10.3390/s24103041
Journal volume & issue
Vol. 24, no. 10
p. 3041

Abstract

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We present the use of interconnected optical mesh networks for early earthquake detection and localization, exploiting the existing terrestrial fiber infrastructure. Employing a waveplate model, we integrate real ground displacement data from seven earthquakes with magnitudes ranging from four to six to simulate the strains within fiber cables and collect a large set of light polarization evolution data. These simulations help to enhance a machine learning model that is trained and validated to detect primary wave arrivals that precede earthquakes’ destructive surface waves. The validation results show that the model achieves over 95% accuracy. The machine learning model is then tested against an M4.3 earthquake, exploiting three interconnected mesh networks as a smart sensing grid. Each network is equipped with a sensing fiber placed to correspond with three distinct seismic stations. The objective is to confirm earthquake detection across the interconnected networks, localize the epicenter coordinates via a triangulation method and calculate the fiber-to-epicenter distance. This setup allows early warning generation for municipalities close to the epicenter location, progressing to those further away. The model testing shows a 98% accuracy in detecting primary waves and a one second detection time, affording nearby areas 21 s to take countermeasures, which extends to 57 s in more distant areas.

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