Deep Learning Based Radar Target Classification Using Micro-Doppler Features

Ali Hanif, Muhammad Muaz
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Abstract

Demand for radar automatic target recognition is ever increasing owing to the extensive employment of radar sensors in urban scenarios and a drastic increase in the number of radar targets, especially drones and UAVs. Micro-Doppler signatures, resulting from the micro-motion dynamics of targets, have emerged as a key distinctive feature for radar automatic target recognition. This paper addresses the problem of radar target recognition based on deep learning and micro-Doppler signatures of targets. The choice of MobileNetV2 deep Convolutional Neural Network based classification on spectrogram images of the targets, has made the system more suitable for system implementation on embedded devices such as Raspberry Pi. Second important contribution of this paper is the augmentation of an extensive and diverse training dataset having five classes ultimately, for the testing of radar automatic target recognition, since few such datasets are available in the open literature. The dataset is developed using a W-band Frequency Modulated Continuous Wave radar. After training the model on the diverse training dataset, validation and test accuracies of 98.67% and 99% respectively, are achieved.
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基于微多普勒特征的深度学习雷达目标分类
由于雷达传感器在城市场景中的广泛应用以及雷达目标数量的急剧增加,特别是无人机和无人机,对雷达自动目标识别的需求不断增加。微多普勒特征是由目标的微运动动态产生的,是雷达自动目标识别的一个重要特征。研究了基于深度学习和目标微多普勒特征的雷达目标识别问题。选择基于MobileNetV2深度卷积神经网络对目标的光谱图图像进行分类,使系统更适合于在树莓派等嵌入式设备上的系统实现。本文的第二个重要贡献是增加了一个广泛而多样的训练数据集,最终有五个类,用于雷达自动目标识别的测试,因为在公开文献中很少有这样的数据集。该数据集是使用w波段调频连续波雷达开发的。在不同的训练数据集上对模型进行训练,验证准确率达到98.67%,测试准确率达到99%。
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