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Self-Supervised Learning Method for SAR Multiinterference Suppression

Xi Cen, Yachao Li, Zhaoyun Han, Tong Gu, Peng Zhang, Tianyi Cai

2023IEEE Transactions on Geoscience and Remote Sensing13 citationsDOI

Abstract

As an active radar system, synthetic aperture radar (SAR) is often affected by different types of strong, complex, and variable electromagnetic interferences, which severely degrades the final imaging performance. Thus, how to effectively detect and suppress complex electromagnetic interferences is a crucial challenge currently. In this paper, we propose a self-supervised learning interference suppression method based on deep learning, including interference localization filtering and radar signal recovery. First, we construct a novel convolutional Autoencoder deep learning model —LocNet via the proposed optimization criterion, which is utilized to detect and locate the interference for subsequent filtration. Aiming at the issue of signal loss in the filtering process that is generally ignored in the current literature, we then reconstruct a novel U-Net neural network model—RecNet for the low-loss recovery of signal. Compared with the traditional parametric/non-parametric anti-interference methods, the most significant advantage of our method is that it overcomes the requirement for interference priori information, which is more consistent with the actual situation, and effectively solves the target information loss. Furthermore, since no interference information is involved in the training process (self-supervised training), our method applies to multiple types of interference rather than a specific one. Moreover, with our method, interference detection and suppression can be achieved simultaneously instead of separating the two steps as in existing literature. Measured and simulated SAR interference-contaminated data test results validate the effectiveness and robustness of the proposed method.

Topics & Concepts

Computer scienceSynthetic aperture radarInterference (communication)Robustness (evolution)Artificial intelligenceDeep learningElectromagnetic interferenceRadarAutoencoderInverse synthetic aperture radarRadar imagingPattern recognition (psychology)TelecommunicationsChannel (broadcasting)ChemistryGeneBiochemistryAdvanced SAR Imaging TechniquesUltrasonics and Acoustic Wave PropagationGeophysical Methods and Applications
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