Time-Frequency Analysis of a Moving Human Doppler Signature

Dogaru, Traian; Le, Calvin; Kirose, Getachew

doi:10.21236/ada494931

Cited by 19 publications

(16 citation statements)

References 8 publications

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“…We also do not simulate noise in the models. Highly accurate meshmodeled simulations of the human micro-Doppler signature have been done [15] but not with studies of the variability.…”

Section: Simultation Methodsmentioning

confidence: 99%

Gait Variations in Human Micro-Doppler

Tahmoush¹,

Silvious²

2011

International Journal of Electronics and Telecommunications

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Abstract-Measurement of human gait variation is important for security applications such as the indication of unexpected loading due to concealed weapons. To observe humans safely, unobtrusively, and without privacy issues, radar provides one method to detect abnormal activity without using images. In this paper we focus on modeling the characteristics of human walking parameters in order to determine signature differences that are distinguishable and to determine the variability of normal walking to be compared to armed or loaded walking. We extract micro-Doppler from motion-captured human gait models and verify the models with radar measurements. We then vary the model to determine the extent of normal micro-Doppler variation in multiple dimensions of human gait. We also characterize the ability of radar to determine gender and suggest that alternative views to the frontal view may be more discriminative.

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“…We also do not simulate noise in the models. Highly accurate meshmodeled simulations of the human micro-Doppler signature have been done [15] but not with studies of the variability.…”

Section: Simultation Methodsmentioning

confidence: 99%

Gait Variations in Human Micro-Doppler

Tahmoush¹,

Silvious²

2011

International Journal of Electronics and Telecommunications

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“…A full wave technique, such as the one employed in this paper, provides better accuracy for more complex structures but requires a large number of computational resources. In [35], a realistic human mesh-based model is proposed with a radar signature modeling based on Finite Difference Time Domain (FDTD) technique. However, FDTD requires a fine mesh in the order of λ/50 for accurate modeling of curved objects, which becomes prohibitive for electrically large objects such as the human [36].…”

Section: Human To Radar Scattering E H-rmentioning

confidence: 99%

Analysis of Moving Human Micro-Doppler Signature in Forest Environments

Garcia-Rubia¹,

Kıłıc²,

Dang³

et al. 2014

PIER

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Abstract-Automatic detection of human motion is important for security and surveillance applications. Compared to other sensors, radar sensors present advantages for human motion detection and identification because of their all-weather and day-and-night capabilities, as well as the fact that they detect targets at a long range. This is particularly advantageous in the case of remote and highly cluttered radar scenes. The objective of this paper is to investigate human motion in highly cluttered forest medium to observe the characteristics of the received Doppler signature from the scene. For this purpose we attempt to develop an accurate model accounting for the key contributions to the Doppler signature for the human motion in a forest environment. Analytical techniques are combined with full wave numerical methods such as Method of Moments (MoM) enhanced with Fast Multipole Method (FMM) to achieve a realistic representation of the signature from the scene. Mutual interactions between the forest and the human as well as the attenuation due to the vegetation are accounted for. Due to the large problem size, parallel programming techniques that utilize a Graphics Processing Unit (GPU) based cluster are used.

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“…The motion of a human can be detected from the side as well as the front [10,24,29], though they are more difficult to detect, as can be seen in Figure 14. In order to develop features that are relatively insensitive to both azimuthal angle and depression angle, a series of features will have to be built upon human and animal micro-Doppler models [8,14,30,31,32]. Radar data itself is rich, allowing the use of micro-Doppler as a weak but long-range biometric [33], but can be limited when using an UGS version [34,35].…”

Section: Radar Micro-dopplermentioning

confidence: 99%

An UGS radar with micro-Doppler capabilities for wide area persistent surveillance

2010

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Detecting humans and distinguishing them from natural fauna is an important issue in security applications to reduce false alarm rates. In particular, it is important to detect and classify people who are walking in remote locations and transmit back detections over extended periods at a low cost and with minimal maintenance. The ability to discriminate men versus animals and vehicles at long range would give a distinct sensor advantage. The reduction in false positive detections due to animals would increase the usefulness of detections, while dismount identification could reduce friendly-fire. We developed and demonstrate a compact radar technology that is scalable to a variety of ultra-lightweight and low-power platforms for wide area persistent surveillance as an unattended, unmanned, and man-portable ground sensor. The radar uses micro-Doppler processing to characterize the tracks of moving targets and to then eliminate unimportant detections due to animals or civilian activity. This paper presents the system and data on humans, vehicles, and animals at multiple angles and directions of motion, demonstrates the signal processing approach that makes the targets visually recognizable, and verifies that the UGS radar has enough micro-Doppler capability to distinguish between humans, vehicles, and animals.

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Time-Frequency Analysis of a Moving Human Doppler Signature

Cited by 19 publications

References 8 publications

Gait Variations in Human Micro-Doppler

Gait Variations in Human Micro-Doppler

Analysis of Moving Human Micro-Doppler Signature in Forest Environments

An UGS radar with micro-Doppler capabilities for wide area persistent surveillance

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