Abstract

Space object recognition is the basis of space attack and defense confrontation. High-quality space object images are very important for space object recognition. Because of the large number of cosmic rays in the space environment and the inadequacy of optical lenses and detectors on satellites to support high-resolution imaging, most of the images obtained are blurred and contain a lot of cosmic-ray noise. So, denoising methods and super-resolution methods are two effective ways to reconstruct high-quality space object images. However, most super-resolution methods could only reconstruct the lost details of low spatial resolution images, but could not remove noise. On the other hand, most denoising methods especially cosmic-ray denoising methods could not reconstruct high-resolution details. So in this paper, a deep convolutional neural network (CNN)-based single space object image denoising and super-resolution reconstruction method is presented. The noise is removed and the lost details of the low spatial resolution image are well reconstructed based on one very deep CNN-based network, which combines global residual learning and local residual learning. Based on a dataset of satellite images, experimental results demonstrate the feasibility of our proposed method in enhancing the spatial resolution and removing the noise of the space objects images.

Highlights

  • Space objects (SO) refer to objects in space, including satellites, space debris, cosmic stars, etc

  • The result shows that when the kernel size was 3, cosmic-ray noise could not be removed, and when the size was 4, cosmic-ray noise could be removed, but at the same time, the satellite details were obviously lost, so the simple erosion operation could not achieve the desired denoising effect

  • The results show that the image details will still be lost further

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Summary

Introduction

Space objects (SO) refer to objects in space, including satellites, space debris, cosmic stars, etc. Orbit determination, position estimation and other researches based on SO are becoming increasingly important. These researches are the basis for entering space, understanding space and controlling space. These researches are indispensable parts of space attack and defense. SO recognition, especially, satellite recognition and surveillance is the basis of space attack and defense confrontation. The geometric shape and texture features are important for SO recognition, orbit estimation, satellite attitude, and state judgment [1,2]. That means high resolution (HR) space object images with less noise are very important to be obtained

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