Abstract
At present, synthetic aperture radar (SAR) automatic target recognition (ATR) has been deeply researched and widely used in military and civilian fields. SAR images are very sensitive to the azimuth aspect of the imaging geomety; the same target at different aspects differs greatly. Thus, the multi-aspect SAR image sequence contains more information for classification and recognition, which requires the reliable and robust multi-aspect target recognition method. Nowadays, SAR target recognition methods are mostly based on deep learning. However, the SAR dataset is usually expensive to obtain, especially for a certain target. It is difficult to obtain enough samples for deep learning model training. This paper proposes a multi-aspect SAR target recognition method based on a prototypical network. Furthermore, methods such as multi-task learning and multi-level feature fusion are also introduced to enhance the recognition accuracy under the case of a small number of training samples. The experiments by using the MSTAR dataset have proven that the recognition accuracy of our method can be close to the accruacy level by all samples and our method can be applied to other feather extraction models to deal with small sample learning problems.
Highlights
The moving and stationary target acquisition and recognition (MSTAR) dataset is used in our experiments
The azimuth angle of the target in MSTAR dataset is in the range of 0◦ –360◦, so it is suitable as the multi-aspect target recognition dataset [12]
According to the dataset construction proposed in [19], considering the azimuth angle coverage of synthetic aperture radar (SAR), we select 4 images withtheazimuth angle variation within 45◦ as a set of multi-aspect SAR image sequence
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. SAR (synthetic aperture radar) is an active microwave remote sensing device that images an object by transmitting electromagnetic waves and receiving corresponding echoes from the object [1]. SAR can work at night and in bad weather conditions, and can penetrate the shallow surface and detect concealed targets. It has all-day and all-weather working capability [2]. SAR has become an important method in remote sensing technologies, and it is widely used in military and civilian fields [3]
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