Hang Yuan scite author profile

Hang Yuan

4Publications

21Citation Statements Received

33Citation Statements Given

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Affiliations

Air Force Engineering University, South China Institute of Collaborative Innovation

Publications

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Micro‐motion parameter extraction of rotating target based on vortex electromagnetic wave radar

Yuan

Luo

Chen

et al. 2021

IET Radar Sonar & Navi

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The vortex electromagnetic (EM) wave radar has the potential to obtain more accurate micro-motion parameters for target recognition. However, with the existing algorithms of micro-motion parameter extraction it is difficult to obtain the real rotation radius and tilt angle of a rotational target in the presence of multiple scattering points in the radar beam. A micro-motion parameter extraction algorithm for rotating targets based on the vortex EM wave radar is proposed in this article. The angular Doppler is obtained from the dualmode vortex EM echoes. The time interval between the maximum and minimum angular Doppler frequency is derived. The relationship between the time interval and micromotion parameters is shown. By combining the linear Doppler and the angular Doppler, the micro-motion parameters are roughly estimated. Then, fine micro-motion parameters are obtained by using an iterative soft threshold algorithm. The proposed algorithm can extract the real rotation radius and tilt angle in the case of multiple scattering points. The performance and robustness of the algorithm are proved by simulations.This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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A Resolution-Improved Imaging Algorithm Based on Uniform Circular Array

Yuan

Chen

Luo

et al. 2022

Antennas Wirel. Propag. Lett.

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Real Micro-Doppler Parameters Extraction of Spinning Targets Based on Rotating Interference Antenna

et al. 2022

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Micro-Doppler is a unique characteristic of targets with micro-motions, which can provide significant information for target classification and recognition. However, the monostatic radar has the shortcoming of only obtaining the radial micro-motion characteristics. Although the vortex-electromagnetic-wave-based radar has the potential to obtain real micro-motion parameters, it has a high dependence on the mode number and purity of the orbital angular momentum, which greatly restricts its application in the micro-motion parameter extraction. To overcome the above problems, a new radar configuration based on the rotating interference antenna is proposed in this paper. Through the interference processing of the micro-Doppler curves of the rotating and fixed antenna, the curves containing the real micro-motion information of the target can be obtained. Then the real micro-motion characteristics of the spinning target can be reconstructed by the orthogonal matching pursuit algorithm. The effectiveness and robustness of the proposed method are validated by simulations.

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Micro-Doppler Parameters Extraction of Precession Cone-Shaped Targets Based on Rotating Antenna

Wang

Luo

et al. 2022

Remote Sensing

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Micro-Doppler is regarded as a unique signature of a target with micro-motions. The sophisticated recognition of the cone-shaped targets can be realized through the micro-Doppler effect. However, it is difficult to extract the micro-motion features perpendicular to the radar line of sight (LOS) effectively. In this paper, a micro-Doppler parameters extraction method of the cone-shaped targets is put forward based on the rotating antenna. First, a new radar configuration is proposed, in which an antenna rotates uniformly on a fixed circle, thus producing Doppler frequency shift. Second, the expression of the micro-Doppler frequency shift induced by the precession cone-shaped target is derived. Then, the micro-Doppler curves of point scatterers at the cone top and bottom are separated by the smoothness of the curves, and the empirical mode decomposition (EMD) method is utilized for the detection and estimation of the coning frequency. Finally, the micro-motion components perpendicular to the radar LOS are inverted by the peak of micro-Doppler frequency curve. Simulation results prove the effectiveness and robustness of the proposed method.

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Hang Yuan

Micro‐motion parameter extraction of rotating target based on vortex electromagnetic wave radar

A Resolution-Improved Imaging Algorithm Based on Uniform Circular Array

Real Micro-Doppler Parameters Extraction of Spinning Targets Based on Rotating Interference Antenna

Micro-Doppler Parameters Extraction of Precession Cone-Shaped Targets Based on Rotating Antenna

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