Task Specific Pretraining with Noisy Labels for Remote sensing Image Segmentation

In recent years, self-supervision has drawn a lot of attention in remote sensing society due to its ability to reduce the demand of exact labels in supervised deep learning model training. Self-supervision methods generally utilize image-level information to pretrain models in an unsupervised fashion. Though these pretrained encoders show effectiveness in many downstream tasks, their performance on segmentation tasks is often not as good as that on classification tasks. On the other hand, many easily available label sources (e.g., automatic labeling tools and land cover land use products) exist, which can provide a large amount of noisy labels for segmentation model training. In this work, we propose to explore the under-exploited potential of noisy labels for segmentation task specific pretraining, and exam its robustness when confronted with mismatched categories and different decoders during fine-tuning. Specifically, we inspect the impacts of noisy labels on different layers in supervised model training to serve as the basis of our work. Experiments on two datasets indicate the effectiveness of task specific supervised pretraining with noisy labels. The findings are expected to shed light on new avenues for improving the accuracy and versatility of pretraining strategies for remote sensing image segmentation.