A. Campos, Ricardo D. Molin, Lucas P. Ramos, Renato B. Machado, V. Vu, M. Pettersson
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引用次数: 0
Abstract
Automatic target recognition (ATR) algorithms have been successfully used for vehicle classification in synthetic aperture radar (SAR) images over the past few decades. For this application, however, the scarcity of labeled data is often a limiting factor for supervised approaches. While the advent of computer-simulated images may result in additional data for ATR, there is still a substantial gap between synthetic and measured images. In this paper, we propose the so-called adaptive target enhancer (ATE), a tool designed to automatically delimit and weight the region of an image that contains or is affected by the presence of a target. Results for the publicly released Synthetic and Measured Paired and Labeled Experiment (SAMPLE) dataset show that, by defining regions of interest and suppressing the background, we can increase the classification accuracy from 68% to 84% while only using artificially generated images for training.
在过去的几十年里,自动目标识别(ATR)算法已经成功地应用于合成孔径雷达(SAR)图像中的车辆分类。然而,对于这种应用,标记数据的稀缺性通常是监督方法的限制因素。虽然计算机模拟图像的出现可能会为ATR带来额外的数据,但合成图像和测量图像之间仍然存在很大差距。在本文中,我们提出了所谓的自适应目标增强器(ATE),这是一种旨在自动划分和加权包含目标或受目标存在影响的图像区域的工具。公开发布的Synthetic and Measured Paired and Labeled Experiment (SAMPLE)数据集的结果表明,在只使用人工生成的图像进行训练的情况下,通过定义感兴趣的区域并抑制背景,我们可以将分类准确率从68%提高到84%。
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