Orchard Areas Segmentation in Remote Sensing Images via Class Feature Aggregate Discriminator

Abstract

Accurate evaluation of orchard areas from remote sensing images is of great importance in economic and ecological aspects. In practice, the differences in distributions between remote sensing images and the lack of data labels make the semantic segmentation model impossible to use in new data. Unsupervised domain adaptation (UDA) methods can improve the performance of the model in the target domain by aligning the source domain and the target domain. However, due to the class mismatch problem and the interference of high-dimensional feature complexity, most UDA methods cannot achieve satisfactory results in orchard areas segmentation task. To address these issues, we propose an UDA model for orchard areas segmentation by developing a class feature aggregate discriminator. The class feature aggregate discriminator is designed to distinguish intra-domain classes and align inter-domain classes, and class feature aggregate can represent class information of different domains, which helps the model to avoid the interference of complex information. In addition, adversarial loss reweighting is introduced to the novel model, which makes the segmentation model pay more attention to the orchard areas. To verify the effectiveness of the proposed method, we conducted extensive experiments in three different remote sensing images around Yichang City. Compared to the baseline model, the proposed approach improves IoU by 27.68%, and we achieve high gains of 6.07% in IoU over other UDA methods. The larger gain indicates that our proposed method has great potential in cross-domain orchard areas segmentation.