Remote Sensing (Feb 2022)

Near Real-Time Change Detection System Using Sentinel-2 and Machine Learning: A Test for Mexican and Colombian Forests

  • Ana María Pacheco-Pascagaza,
  • Yaqing Gou,
  • Valentin Louis,
  • John F. Roberts,
  • Pedro Rodríguez-Veiga,
  • Polyanna da Conceição Bispo,
  • Fernando D. B. Espírito-Santo,
  • Ciaran Robb,
  • Caroline Upton,
  • Gustavo Galindo,
  • Edersson Cabrera,
  • Indira Paola Pachón Cendales,
  • Miguel Angel Castillo Santiago,
  • Oswaldo Carrillo Negrete,
  • Carmen Meneses,
  • Marco Iñiguez,
  • Heiko Balzter

DOI
https://doi.org/10.3390/rs14030707
Journal volume & issue
Vol. 14, no. 3
p. 707

Abstract

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The commitment by over 100 governments covering over 90% of the world’s forests at the COP26 in Glasgow to end deforestation by 2030 requires more effective forest monitoring systems. The near real-time (NRT) change detection of forest cover loss enables forest landowners, government agencies and local communities to monitor natural and anthropogenic disturbances in a much timelier fashion than the thematic maps that are released every year. NRT deforestation alerts enable the establishment of more up-to-date forest inventories and rapid responses to unlicensed logging. The Copernicus Sentinel-2 satellites provide operational Earth observation (EO) data from multi-spectral optical/near-infrared wavelengths every five days at a global scale and at 10 m resolution. The amount of acquired data requires cloud computing or high-performance computing for ongoing monitoring systems and an automated system for processing, analyzing and delivering the information promptly. Here, we present a Sentinel-2-based NRT change detection system, assess its performance over two study sites, Manantlán in Mexico and Cartagena del Chairá in Colombia, and evaluate the forest changes that occurred in 2018. An independent validation with very high-resolution PlanetScope (~3 m) and RapidEye (~5 m) data suggests that the proposed NRT change detection system can accurately detect forest cover loss (> 87%), other vegetation loss (> 76%) and other vegetation gain (> 71%). Furthermore, the proposed NRT change detection system is designed to be attuned using in situ data. Therefore, it is scalable to larger regions, entire countries and even continents.

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