LAUSR

Semantic segmentation of remote sensing imageries plays a crucial role in resource exploration, urban planning, weather forecasting, etc. For this task, deep learning-based methods have shown significant achievement, typically trained with large-scale labeled data. However, these methods often suffer the performance deterioration facing limited labeled data in real-world applications. To address this problem, a novel self-supervised semantic segmentation framework is proposed for remote sensing imageries with limited labeled data. Specifically, image inpainting is acted as pixel-level pretext task for learning dense feature representations suitable for semantic segmentation. Furthermore, rather than trivially leveraging the conventional random inpainting strategy, a novel adversarial training scheme is proposed to drive the pretext task to adaptively mask and restore salient local regions. The adversarial training scheme consists of instructor network and inpainting network, the instructor network increasingly predicts meaningful salient regions as erased regions, and meanwhile the inpainting network seeks for restoring the corrupted image as pretext task to learn its intrinsic representation. Moreover, the structural similarity (SSIM) is applied as a patch-level loss function for semantic segmentation considering that remote sensing images are highly structured. The experimental results on the International Society for Photogrammetry and Remote Sensing (ISPRS) Potsdam dataset demonstrate that our method outperforms state-of-the-art self-supervised methods and the ImageNet pre-training methods. The source code is available at https://github.com/JasmineBJTU/self-supervised_RSSS