Measurements and discrimination of drones and birds with a multi‐frequency multistatic radar system

Palamà, Riccardo; Fioranelli, Francesco; Ritchie, Matthew; Inggs, Michael; Lewis, Simon; Griffiths, Hugh

doi:10.1049/rsn2.12060

Cited by 21 publications

(8 citation statements)

References 25 publications

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“…Methods of the first group aim to understand the radar signatures of drones produced in the micro-Doppler domain ( [27]) and characterize the sensed radar cross section in order to set suitable thresholds and detection ranges [28], [29]. The second group includes methods using physics-based criteria ( [30], [31]) or neural networks ( [32], [33]) for drone detection and classification.…”

Section: B Radar-based Drone Detection Methodsmentioning

confidence: 99%

Extracting Unambiguous Drone Signature Using High-Speed Camera

et al. 2022

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In recent years, the use of drones for recreational and commercial activities has grown rapidly due to their affordability and performance. This growing use raises concerns about the threats drones pose to the security of sensitive areas such as airports, prisons, industrial and military facilities. In response to these threats, drones detection methods are being actively developed. In particular, most camera-based methods rely on appearance to perform detection. They are therefore prone to error due to the great similarity between drones and some other flying entities such as birds. However, from a kinematic perspective, unlike birds, drones, especially multicopters, have a propeller rotation speed. The method proposed in this paper uses the propeller rotation speed as the key physical parameter on which to rely to unambiguously distinguish drones from other flying entities. The basic idea consists in using discrete Fourier transform to determine the propellers rotation speed from high frame rate videos, and extracting the propellers induced drone signature as a quantitative camera-based drone signature. The proposed algorithm proceeds as follows: flying entities are continuously tracked in the sky; discrete Fourier transform, applied to the video stream within a time window ending at the current instant (frame), is used to extract the propellers induced drone signature which unambiguously confirm each flying entity as being a drone or not. Experimental results obtained using a consumer-grade camera at a frame rate of 240Hz demonstrate the effectiveness and reliability of the proposed method.INDEX TERMS Drone detection, discrete Fourier transform, high speed camera, propellers induced drone signature, propeller rotation speed, unambiguous drone signature.

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Section: B Radar-based Drone Detection Methodsmentioning

confidence: 99%

Extracting Unambiguous Drone Signature Using High-Speed Camera

et al. 2022

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“…More recently, the passive WiFi radar (PWR) system provides an alternative for WiFi-based sensing tasks. There are many applications that have been successfully demonstrated by PWR systems, including occupancy detection, activity classification and hand gesture recognition [8]- [11]. Different from the CSI-based systems, PWR can express not only the amplitude of returned signals, but also the micro-Doppler frequency shifts in different body parts using micro-Doppler (µ-Doppler) spectrograms, which offers a more comprehensive perception of human movements.…”

Section: Introductionmentioning

confidence: 99%

MDPose: Human Skeletal Motion Reconstruction Using WiFi Micro-Doppler Signatures

Chun

Vishwakarma

et al. 2024

IEEE Trans. Aerosp. Electron. Syst.

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“…Drones are known to produce micro-Doppler shifts in radar echoes due to the modulation of incident radar waves by their rotating blades [13]. These shifts are unique radar signatures that can aid in the detection and classification of drones from other clutter, such as birds and humans [14][15][16][17][18][19][20]. Drones can be classified into three types based on the relative direction between the rotating plane of blades and the ground plane.…”

Section: Introductionmentioning

confidence: 99%

Exploring Radar Micro-Doppler Signatures for Recognition of Drone Types

Yan

Hu²,

Gong

et al. 2023

Drones

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In this study, we examine the use of micro-Doppler signals produced by different blades (i.e., puller and lifting blades) to aid in radar-based target recognition of small drones. We categorize small drones into three types based on their blade types: fixed-wing drones with only puller blades, multi-rotor drones with only lifting blades, and hybrid vertical take-off and landing (VTOL) fixed-wing drones with both lifting and puller blades. We quantify the radar signatures of the three drones using statistical measures, such as signal-to-noise ratio (SNR), signal-to-clutter ratio (SCR), Doppler speed, Doppler frequency difference (DFD), and Doppler magnitude ratio (DMR). Our findings show that the micro-Doppler signals of lifting blades in all three drone types were stronger than those of puller blades. Specifically, the DFD and DMR values of pusher blades were below 100 Hz and 0.3, respectively, which were much smaller than the 200 Hz and 0.8 values for lifting blades. The micro-Doppler signals of the puller blades were weaker and more stable than those of the lifting blades. Our study demonstrates the potential of using micro-Doppler signatures modulated by different blades for improving drone detection and the identification of drone types by drone detection radar.

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Measurements and discrimination of drones and birds with a multi‐frequency multistatic radar system

Cited by 21 publications

References 25 publications

Extracting Unambiguous Drone Signature Using High-Speed Camera

Extracting Unambiguous Drone Signature Using High-Speed Camera

MDPose: Human Skeletal Motion Reconstruction Using WiFi Micro-Doppler Signatures

Exploring Radar Micro-Doppler Signatures for Recognition of Drone Types

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