Remote Sensing (Oct 2024)

Detection of Complex Formations in an Inland Lake from Sentinel-2 Images Using Atmospheric Corrections and a Fully Connected Deep Neural Network

  • Damianos F. Mantsis,
  • Anastasia Moumtzidou,
  • Ioannis Lioumbas,
  • Ilias Gialampoukidis,
  • Aikaterini Christodoulou,
  • Alexandros Mentes,
  • Stefanos Vrochidis,
  • Ioannis Kompatsiaris

DOI
https://doi.org/10.3390/rs16203913
Journal volume & issue
Vol. 16, no. 20
p. 3913

Abstract

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The detection of complex formations, initially suspected to be oil spills, is investigated using atmospherically corrected multispectral satellite images and deep learning techniques. Several formations have been detected in an inland lake in Northern Greece. Four atmospheric corrections (ACOLITE, iCOR, Polymer, and C2RCC) that are specifically designed for water applications are examined and implemented on Sentinel-2 multispectral satellite images to eliminate the influence of the atmosphere. Out of the four algorithms, iCOR and ACOLITE are able to depict the formations sufficiently; however, the latter is chosen for further processing due to fewer uncertainties in the depiction of these formations as anomalies across the multispectral range. Furthermore, a number of formations are annotated at the pixel level for the 10 m bands (red, green, blue, and NIR), and a deep neural network (DNN) is trained and validated. Our results show that the four-band configuration provides the best model for the detection of these complex formations. Despite not being necessarily related to oil spills, studying these formations is crucial for environmental monitoring, pollution detection, and the advancement of remote sensing techniques.

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