A Semantics-Aware Hierarchical Self-Supervised Approach to Classification of Remote Sensing Images
- URL: http://arxiv.org/abs/2510.04916v1
- Date: Mon, 06 Oct 2025 15:30:39 GMT
- Title: A Semantics-Aware Hierarchical Self-Supervised Approach to Classification of Remote Sensing Images
- Authors: Giulio Weikmann, Gianmarco Perantoni, Lorenzo Bruzzone,
- Abstract summary: We present a novel Semantics-Aware Hierarchical Consensus (SAHC) method for learning hierarchical features and relationships.<n>The SAHC method is evaluated on three benchmark datasets with different degrees of hierarchical complexity.<n> Experimental results show both the effectiveness of the proposed approach in guiding network learning and the robustness of the hierarchical consensus for remote sensing image classification tasks.
- Score: 12.282079123411947
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: Deep learning has become increasingly important in remote sensing image classification due to its ability to extract semantic information from complex data. Classification tasks often include predefined label hierarchies that represent the semantic relationships among classes. However, these hierarchies are frequently overlooked, and most approaches focus only on fine-grained classification schemes. In this paper, we present a novel Semantics-Aware Hierarchical Consensus (SAHC) method for learning hierarchical features and relationships by integrating hierarchy-specific classification heads within a deep network architecture, each specialized in different degrees of class granularity. The proposed approach employs trainable hierarchy matrices, which guide the network through the learning of the hierarchical structure in a self-supervised manner. Furthermore, we introduce a hierarchical consensus mechanism to ensure consistent probability distributions across different hierarchical levels. This mechanism acts as a weighted ensemble being able to effectively leverage the inherent structure of the hierarchical classification task. The proposed SAHC method is evaluated on three benchmark datasets with different degrees of hierarchical complexity on different tasks, using distinct backbone architectures to effectively emphasize its adaptability. Experimental results show both the effectiveness of the proposed approach in guiding network learning and the robustness of the hierarchical consensus for remote sensing image classification tasks.
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