Single Remote Sensing Image Dehazing Using Gaussian and Physics-Guided Process

Abstract

Remote Sensing (RS) dehazing is a challenging task due to various haze distribution severely degrade the image quality. Recent learning-based methods achieve dramatic performance for RS dehazing, however previous ways are limited to their generality using only fully labeled datasets and less prior-guided information. In this paper, we explore the Gaussian and Physics-guided Dehazing Network (GPD-Net) to better obtain hazy feature and improve the generalization ability in real world condition. To promote the feature extraction, a novel Global Attention Mechanism (GAM) is involved to extract feature from different haze distribution. Then, an encoder-decoder network is designed with Gaussian Process (GP) in the intermediate latent space, in order to learn the full labeled dehazing and guide to handle the unlabeled learning. For the fine-tuning, we select some physical prior knowledge to refine the dehazed results. Extensive experiments demonstrate that our method outperforms the recent comparing approaches on the synthetic and real-world datasets.