Kun Lv scite author profile

Kun Lv

3Publications

3Citation Statements Received

0Citation Statements Given

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Xidian University

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Micromotion Feature Extraction with VEMW Radar Based on Rotational Doppler Effect

Jiang

et al. 2023

Remote Sensing

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Micro-Doppler (m-D) analysis is the most effective mechanism for detecting rotating targets or components; however, it fails when the target rotation plane is perpendicular to the radar line of sight (LOS). The vortex electromagnetic wave (VEMW) provides a unconventional structure of wavefront phase modulation on the cross-plane of the radar LOS, on which the radial m-D vanishes while the rotational Doppler (RD) appears. In the absence of the position of rotation center, this paper focuses on the micromotion parameters estimation based on RD effect for rotating target, and then proposes an estimation procedure, referred to as the two-step method. The micromotion parameters of the rotating target include the rotation attitude, the rotation radius and the position of the rotation center while the latter is coupled to the former two. Firstly, the micromotion parameters are roughly estimated based on the RD curve parameters obtained from the time-frequency (TF) spectrum of the received signal. Secondly, the maximum likelihood estimation (MLE) is used to accurately estimate the micromotion parameters. In addition, the Cramér–Rao bound (CRB) of parameter estimation is derived. The simulation studies the influencing factors of estimation performance and verifies that the proposed estimation method can provide excellent estimation accuracy of the micromotion parameters.

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Three-dimensional imaging using the electromagnetic vortex synthetic aperture radar

Zhu

et al. 2021

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Fast Human Body Scan for Security Inspection Based on Multi-Mode Vortex Electromagnetic Wave

Zhang

et al. 2021

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Kun Lv

Micromotion Feature Extraction with VEMW Radar Based on Rotational Doppler Effect

Three-dimensional imaging using the electromagnetic vortex synthetic aperture radar

Fast Human Body Scan for Security Inspection Based on Multi-Mode Vortex Electromagnetic Wave

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