Instance Switching-based Contrastive Learning for Fine-grained Airplane Detection

Detecting airplanes from high-resolution remote sensing images has a variety of applications. The characteristics of clear details, rich spatial and texture information of objects in high-resolution remote sensing images make it possible to identify different types of airplanes from backgrounds. However, airplanes usually exhibit slight inter-class discrepancy and unbalanced class distribution, which pose significant challenges to fine-grained detection of airplanes. In this paper, we propose the ISCL, an Instance Switching-based Contrastive Learning method for fine-grained airplane detection. Specifically, we introduce a Contrastive Learning-based Module (CLM) to widen the inter-class distance while narrowing the intra-class distance by optimizing feature space distribution with the InfoNCE + loss, which is built on a serial head in a cascaded way. Then, we design a Refined Instance Switching (ReIS) module to alleviate the class imbalance problem. To take full advantage of the CLM and ReIS, we further introduce an optimization strategy which is an organic combination of the two modules to widen the distances of different airplane categories that are easily confused. In addition, we contribute a fine-grained attribute-assisted dataset, dubbed GF-RarePlanes Dataset (GRD), to help the detectors better learn the subtle differences between the airplanes. Extensive experiments on two datasets ( i.e ., GF and FAIR1M) demonstrate that our proposed method can significantly improve the accuracy of fine-grained airplane detection under both HBB and OBB scenarios. Dataset and codes will be available at https://lanxin1011.github.io/ISCL/.