Micro-Doppler Frequency Extraction for Cone-skirt Shaped Target with Precession Based on Parameterized Time-frequency Analysis

The micro-Doppler signatures can be utilized to the estimation of the motion and structure parameters of the targets. In this paper, based on the effective point scatterer model of the cone-skirt shaped target, the formulas of micro-Doppler induced by the precession are derived. Since the micro-Dopp...

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Veröffentlicht in:	Dian zi yu xin xi xue bao = Journal of electronics & information technology 2016-01, Vol.38 (1), p.90-96
Hauptverfasser:	Xiao, Jinguo, Du, Lan, Han, Xun, Cao, Wenjie, Liu, Hongwei
Format:	Artikel
Sprache:	chi
Schlagworte:	Coherent scattering Doppler Doppler effect Echoes Information technology Mathematical models Precession Time-frequency analysis
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container_title	Dian zi yu xin xi xue bao = Journal of electronics & information technology
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creator	Xiao, Jinguo Du, Lan Han, Xun Cao, Wenjie Liu, Hongwei
description	The micro-Doppler signatures can be utilized to the estimation of the motion and structure parameters of the targets. In this paper, based on the effective point scatterer model of the cone-skirt shaped target, the formulas of micro-Doppler induced by the precession are derived. Since the micro-Doppler curves induced by the precession are in the forms of the multi-stage superimposed sine series for the cone-skirt shaped target, an approach to extract the micro-Doppler frequency based on the parameterized time-frequency analysis is proposed. In this method, the precession frequency is first estimated via the Coherent Single Range Doppler Interferometry (CSRDI) algorithm, then the micro-Doppler curve of each scatterer is estimated based on the parameterized time-frequency analysis, and finally the scatterers' echoes can be separated with the band-stop filter. In the simulation experiments, the proposed method is evaluated based on the electromagnetic computation data.
doi_str_mv	10.11999/JEIT150505
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In this paper, based on the effective point scatterer model of the cone-skirt shaped target, the formulas of micro-Doppler induced by the precession are derived. Since the micro-Doppler curves induced by the precession are in the forms of the multi-stage superimposed sine series for the cone-skirt shaped target, an approach to extract the micro-Doppler frequency based on the parameterized time-frequency analysis is proposed. In this method, the precession frequency is first estimated via the Coherent Single Range Doppler Interferometry (CSRDI) algorithm, then the micro-Doppler curve of each scatterer is estimated based on the parameterized time-frequency analysis, and finally the scatterers' echoes can be separated with the band-stop filter. 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subjects	Coherent scattering Doppler Doppler effect Echoes Information technology Mathematical models Precession Time-frequency analysis
title	Micro-Doppler Frequency Extraction for Cone-skirt Shaped Target with Precession Based on Parameterized Time-frequency Analysis
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