Litcius/Paper detail

Domain-Adversarial Neural Networks for Deforestation Detection in Tropical Forests

Pedro Juan Soto Vega, Gilson Alexandre Ostwald Pedro da Costa, Raul Queiroz Feitosa, M. X. Ortega, José David Bermúdez Castro, Javier Noa Turnes

2022IEEE Geoscience and Remote Sensing Letters27 citationsDOIOpen Access PDF

Abstract

Many deep-learning (DL)-based, domain adaptation (DA) methods for remote sensing (RS) applications rely on adversarial training strategies to align features extracted from images of different domains in a shared latent space. However, the performance of such representation matching techniques is negatively impacted when class occurrences in the target domain, for which no labeled data are available during training, are highly imbalanced. In this work, we propose a DL-based representation matching approach for DA in the context of change detection tasks. We further evaluate the approach in a deforestation mapping application, characterized by a high-class imbalance between the deforestation and no-deforestation classes. The domains represent different sites in the Amazon and Brazilian Cerrado biomes. To mitigate the class imbalance problem, we devised an unsupervised pseudolabeling scheme based on change vector analysis (CVA) that prevents the feature alignment to be biased toward the overrepresented class. The experimental results indicate that the proposed approach can improve the accuracy of cross-domain deforestation detection.

Topics & Concepts

Computer scienceDeforestation (computer science)Artificial intelligenceDomain (mathematical analysis)Representation (politics)Matching (statistics)Context (archaeology)Adversarial systemClass (philosophy)Machine learningBiomeAmazon rainforestPattern recognition (psychology)Data miningRemote sensingGeographyMathematicsEcologyEcosystemBiologyPoliticsLawProgramming languagePolitical scienceArchaeologyStatisticsMathematical analysisDomain Adaptation and Few-Shot LearningRemote-Sensing Image ClassificationMachine Learning and Data Classification