Deep Reinforcement Learning based SAR Image Pre-Processing Algorithm with Finite Buffer LEO Satellite Networks

2022 13th International Conference on Information and Communication Technology Convergence (ICTC) Pub Date : 2022-10-19 DOI:10.1109/ICTC55196.2022.9952926

Tae-Yoon Kim, Kyeongrok Kim, Jae-Hyun Kim

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Abstract

As space technology advances, launching low Earth orbit (LEO) satellites become easier and LEO satellites are being used in various fields. In particular, LEO synthetic aperture radar (SAR) system is in the spotlight with many advantages, e.g., regardless of weather condition, 24 hour operation. SAR system can be used in various fields such as object detection and disaster observation. However, SAR image has speckling noise, so image pre-processing must be required. There are many researches on the SAR image processing, however, few publications are considering a buffer status. Therefore, in this paper, we suggest the optimal SAR image pre-processing in LEO SAR satellites and a ground station with finite buffer based on deep reinforcement learning (DRL). As a result of DRL simulation, while changing the buffer size of the LEO SAR satellites, efficiency of buffer was improved by selecting the optimal filter size according to the state of the buffer.

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基于深度强化学习的有限缓冲LEO卫星网络SAR图像预处理算法

随着空间技术的进步，发射近地轨道卫星变得越来越容易，近地轨道卫星在各个领域得到了应用。特别是低轨道合成孔径雷达(SAR)系统，具有不受天气条件影响，24小时运行等诸多优势，备受关注。SAR系统可应用于目标探测、灾害观测等多个领域。然而，SAR图像存在斑点噪声，因此必须对图像进行预处理。目前对SAR图像处理的研究较多，但考虑缓冲状态的文献较少。因此，本文提出了基于深度强化学习(deep reinforcement learning, DRL)的低轨道SAR卫星和有限缓冲地面站SAR图像预处理的优化方法。DRL仿真结果表明，在改变LEO SAR卫星缓冲区大小的同时，根据缓冲区的状态选择最优滤波器大小，提高了缓冲区的效率。

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2022 13th International Conference on Information and Communication Technology Convergence (ICTC)

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