Litcius/Paper detail

Segmentation-Guided Semantic-Aware Self-Supervised Denoising for SAR Image

Ye Yuan, Yanxia Wu, Pengming Feng, Yan Fu, Yulei Wu

2023IEEE Transactions on Geoscience and Remote Sensing12 citationsDOI

Abstract

Synthetic aperture radar (SAR) images often suffer from speckle noise, which can degrade their visual quality and affect downstream applications. Recently, supervised and self-supervised methods have been proposed by virtue of deep learning with synthetic “noisy-clean” image pairs or only real noisy images as training data, respectively. Among these methods, by avoiding artifact problems in real SAR image denoising, self-supervised methods solve the domain gap problem of supervised methods and hence have attracted significant attention. However, existing self-supervised denoising methods essentially rely on pixel information of images and ignore corresponding semantic information, which makes them challenging to remove speckle noise while retaining detailed features. To this end, we propose a segmentation-guided semantic-aware self-supervised denoising method for SAR images, namely SARDeSeg, where a segmentation network is incorporated with a denoising network and guides it to learn and be aware of the semantic information of the input noisy SAR images. Additionally, a wavelet transform-based connector is introduced to efficiently transmit semantic information between the denoising network and the segmentation network, together with an edge-aware smoothing loss to improve speckle noise suppression while preserving edge features. Experimental results demonstrate that the proposed SARDeSeg outperforms state-of-the-art denoising methods for SAR images, particularly in preserving detailed edge features.

Topics & Concepts

Computer scienceArtificial intelligenceNoise reductionSpeckle noiseSynthetic aperture radarSmoothingSegmentationComputer visionPattern recognition (psychology)Noise (video)Speckle patternImage (mathematics)Image and Signal Denoising MethodsAdvanced Image Fusion TechniquesSparse and Compressive Sensing Techniques