Hybrid Reasoning Network With Class-Oriented Hierarchical Representation for Few-Shot SAR Target Recognition

Abstract

The rise of deep learning has furnished a potent boost for the rapid development of automatic target recognition (ATR) in synthetic aperture radar (SAR) imagery. The existing SAR ATR methods can achieve impressive results with the great many labeled samples available. However, in real SAR application scenarios, the acquisition of quite a few SAR samples is costly or sometimes infeasible. Thus, SAR target recognition under the condition of sample scarcity is a fundamental issue to be overcome urgently. In this article, we put forward an ATR method named hybrid reasoning network with class-oriented hierarchical representation (HRNCHR) to achieve SAR target recognition with limited training samples. First, we develop a feature extraction model with local–global information concurrent refinement mechanism (LGICRM), which aims to simultaneously refine diverse features at both local and global levels from limited samples. Then, a hierarchical representation space that can learn hierarchical relationships between categories by utilizing diverse features learned from the feature extraction model is established, which is convenient to generalize to few-shot SAR target recognition tasks with the aid of category hierarchical relationship. Finally, a hybrid reasoning strategy is presented, which affords to fuse the reasoning results of instance level and prototype level to promote the accuracy of a decision-making system. Extensive evaluation experiments on the publicly released moving and stationary target acquisition and recognition (MSTAR) dataset and OpenSARship dataset illustrate that the proposed method surpasses many state-of-the-art SAR ATR methods.