Multi-Frequency Radar Micro-Doppler Based Classification of Micro-Drone Payload Weight

IF 1.3 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Frontiers in signal processing Pub Date : 2021-12-22 DOI:10.3389/frsip.2021.781777
D. Dhulashia, N. Peters, C. Horne, P. Beasley, M. Ritchie
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引用次数: 7

Abstract

The use of drones for recreational, commercial and military purposes has seen a rapid increase in recent years. The ability of counter-drone detection systems to sense whether a drone is carrying a payload is of strategic importance as this can help determine the potential threat level posed by a detected drone. This paper presents the use of micro-Doppler signatures collected using radar systems operating at three different frequency bands for the classification of carried payload of two different micro-drones performing two different motions. Use of a KNN classifier with six features extracted from micro-Doppler signatures enabled mean payload classification accuracies of 80.95, 72.50 and 86.05%, for data collected at S-band, C-band and W-band, respectively, when the drone type and motion type are unknown. The impact on classification performance of different amounts of situational information is also evaluated in this paper.
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基于多频雷达微多普勒的微型无人机载荷重量分类
近年来,用于娱乐、商业和军事目的的无人机数量迅速增加。反无人机探测系统感知无人机是否携带有效载荷的能力具有战略重要性,因为这有助于确定被探测无人机构成的潜在威胁级别。本文介绍了使用在三个不同频段运行的雷达系统收集的微多普勒特征,用于对执行两种不同运动的两种不同微型无人机的携带有效载荷进行分类。使用从微多普勒特征中提取的六个特征的KNN分类器,当无人机类型和运动类型未知时,在s波段、c波段和w波段收集的数据的平均有效载荷分类准确率分别为80.95%、72.50%和86.05%。本文还评估了不同情景信息量对分类性能的影响。
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