Remote Sensing in Ecology and Conservation (Apr 2022)

Seismic savanna: machine learning for classifying wildlife and behaviours using ground‐based vibration field recordings

  • Alexandre Szenicer,
  • Michael Reinwald,
  • Ben Moseley,
  • Tarje Nissen‐Meyer,
  • Zachary Mutinda Muteti,
  • Sandy Oduor,
  • Alex McDermott‐Roberts,
  • Atilim G. Baydin,
  • Beth Mortimer

DOI
https://doi.org/10.1002/rse2.242
Journal volume & issue
Vol. 8, no. 2
pp. 236 – 250

Abstract

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Abstract We develop a machine learning approach to detect and discriminate elephants from other species, and to recognise important behaviours such as running and rumbling, based only on seismic data generated by the animals. We demonstrate our approach using data acquired in the Kenyan savanna, consisting of 8000 h seismic recordings and 250 k camera trap pictures. Our classifiers, different convolutional neural networks trained on seismograms and spectrograms, achieved 80%–90% balanced accuracy in detecting elephants up to 100 m away, and over 90% balanced accuracy in recognising running and rumbling behaviours from the seismic data. We release the dataset used in this study: SeisSavanna represents a unique collection of seismic signals with the associated wildlife species and behaviour. Our results suggest that seismic data offer substantial benefits for monitoring wildlife, and we propose to further develop our methods using dense arrays that could result in a seismic shift for wildlife monitoring.

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