Abstract
Self-supervised method has proven to be a suitable approach for despeckling on synthetic aperture radar (SAR) images. However, most self-supervised despeckling methods are trained by noisy-noisy image pairs, which are constructed by using natural images with simulated speckle noise, time-series real-world SAR images or generative adversarial network, limiting the practicability of these methods in real-world SAR images. Therefore, in this paper, a novel self-supervised despeckling algorithm with an enhanced U-Net is proposed for real-world SAR images. Firstly, unlike previous self-supervised despeckling works, the noisy-noisy image pairs are generated from real-word SAR images through a novel generation training pairs module, which makes it possible to train deep convolutional neural networks using real-world SAR images. Secondly, an enhanced U-Net is designed to improve the feature extraction and fusion capabilities of the network. Thirdly, a self-supervised training loss function with a regularization loss is proposed to address the difference of target pixel values between neighbors on the original SAR images. Finally, visual and quantitative experiments on simulated and real-world SAR images show that the proposed algorithm notably removes speckle noise with better preserving features, which exceed several state-of-the-art despeckling methods.
Highlights
Synthetic aperture radar (SAR) [1] is an active remote sensing imaging sensor that transmits electromagnetic signals to target in a slant distance manner
The proposed supervised despeckling algorithm with an enhance U-Net (SSEUNet) is composed of generation training pairs (GTP) module, enhanced U-Net (EUNet) and a self-supervised training loss function with a regularization loss
We propose a novel self-supervised despeckling algorithm with an enhanced U-Net (SSEUNet)
Summary
Synthetic aperture radar (SAR) [1] is an active remote sensing imaging sensor that transmits electromagnetic signals to target in a slant distance manner. Compared with optical imaging sensors, SAR has the imaging ability of all-time and all-weather. SAR has become one of the remote sensors used for disaster assessment [2], resource exploration [3], ocean surveillance [4,5] and statistical analysis [6]. Due to the imaging mechanism, the quality of SAR images is inherently affected by speckle noise [7,8]. Speckle noise is a granular disturbance, usually modeled as a multiplicative noise, that affects SAR images, as well as all coherent images [8]. The speckle noise may severely diminish the performances of detection accuracy [9,10,11,12] and information extraction [13]
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