High-Precision Wideband Phase-Derived Velocity Measurement for Micro-Motion Extraction

Yuan Jiang; Huayu Fan; Quanhua Liu; Xinliang Chen

doi:10.15918/j.jbit1004-0579.201726.0116

High-Precision Wideband Phase-Derived Velocity Measurement for Micro-Motion Extraction

Yuan Jiang, Huayu Fan, Quanhua Liu^*, Xinliang Chen

^*Corresponding author for this work

School of Information and Electronics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

A phase-derived velocity measurement method is proposed in a wideband coherent system, based on a precise echo model considering the inner pulse Doppler effect caused by fast moving targets. The Cramer-Rao low band of velocity measurement precision is deduced, demonstrating the high precision of the proposed method. Simulations and out-field experiments further validate the effectiveness of the proposed method in high-precision measurement and micro-motion extraction for targets with weak reflection intensity. Compared with the long-time integration approaches for velocity measurement, the phase-derived method is easy to implement and meets the requirement for high data rate, which makes it suitable for micro-motion feature extraction in wideband systems.

Original language	English
Pages (from-to)	106-114
Number of pages	9
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	26
Issue number	1
DOIs	https://doi.org/10.15918/j.jbit1004-0579.201726.0116
Publication status	Published - 1 Mar 2017

Keywords

High-precision measurement
Micro-motion extraction
Phase-derived velocity measurement
Wideband coherent system

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10.15918/j.jbit1004-0579.201726.0116

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title = "High-Precision Wideband Phase-Derived Velocity Measurement for Micro-Motion Extraction",

abstract = "A phase-derived velocity measurement method is proposed in a wideband coherent system, based on a precise echo model considering the inner pulse Doppler effect caused by fast moving targets. The Cramer-Rao low band of velocity measurement precision is deduced, demonstrating the high precision of the proposed method. Simulations and out-field experiments further validate the effectiveness of the proposed method in high-precision measurement and micro-motion extraction for targets with weak reflection intensity. Compared with the long-time integration approaches for velocity measurement, the phase-derived method is easy to implement and meets the requirement for high data rate, which makes it suitable for micro-motion feature extraction in wideband systems.",

keywords = "High-precision measurement, Micro-motion extraction, Phase-derived velocity measurement, Wideband coherent system",

author = "Yuan Jiang and Huayu Fan and Quanhua Liu and Xinliang Chen",

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T1 - High-Precision Wideband Phase-Derived Velocity Measurement for Micro-Motion Extraction

AU - Jiang, Yuan

AU - Fan, Huayu

AU - Liu, Quanhua

AU - Chen, Xinliang

PY - 2017/3/1

Y1 - 2017/3/1

N2 - A phase-derived velocity measurement method is proposed in a wideband coherent system, based on a precise echo model considering the inner pulse Doppler effect caused by fast moving targets. The Cramer-Rao low band of velocity measurement precision is deduced, demonstrating the high precision of the proposed method. Simulations and out-field experiments further validate the effectiveness of the proposed method in high-precision measurement and micro-motion extraction for targets with weak reflection intensity. Compared with the long-time integration approaches for velocity measurement, the phase-derived method is easy to implement and meets the requirement for high data rate, which makes it suitable for micro-motion feature extraction in wideband systems.

AB - A phase-derived velocity measurement method is proposed in a wideband coherent system, based on a precise echo model considering the inner pulse Doppler effect caused by fast moving targets. The Cramer-Rao low band of velocity measurement precision is deduced, demonstrating the high precision of the proposed method. Simulations and out-field experiments further validate the effectiveness of the proposed method in high-precision measurement and micro-motion extraction for targets with weak reflection intensity. Compared with the long-time integration approaches for velocity measurement, the phase-derived method is easy to implement and meets the requirement for high data rate, which makes it suitable for micro-motion feature extraction in wideband systems.

KW - High-precision measurement

KW - Micro-motion extraction

KW - Phase-derived velocity measurement

KW - Wideband coherent system

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JO - Journal of Beijing Institute of Technology (English Edition)

JF - Journal of Beijing Institute of Technology (English Edition)

IS - 1

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High-Precision Wideband Phase-Derived Velocity Measurement for Micro-Motion Extraction

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Keywords

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