Enhanced SIMO Radar System Based on Time-Frequency Correlation for Target Localization Applications

Le Zou; Xuetian Wang; Lihua Zhang; Hongmin Gao

doi:10.13164/RE.2022.0468

Enhanced SIMO Radar System Based on Time-Frequency Correlation for Target Localization Applications

Le Zou^*, Xuetian Wang, Lihua Zhang, Hongmin Gao

^*Corresponding author for this work

School of Integrated Circuits and Electronics

Beijing Institute of Technology

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

Abstract

This study developed a novel S-band radar system for planar location applications. High-resolution range imaging and target angle estimation were achieved by using a stepped frequency continuous wave (SFCW) signal and single input multiple output (SIMO) architecture with a linear sparse array layout, respectively. An improved time-frequency method was utilized to link the independent range profile and angle spectrum results to obtain the plane positions of the targets. The radar hardware was composed of the antenna array with one transmit element and five receive elements, an RF transceiver, and a signal processing component. Under the proposed waveform parameters and signal processing scheme, a 16-ms process cycle, 0.3-m ranging error, and 0.4° angle estimation error for target positioning were achieved in field tests.

Original language	English
Pages (from-to)	468-476
Number of pages	9
Journal	Radioengineering
Volume	31
Issue number	4
DOIs	https://doi.org/10.13164/RE.2022.0468
Publication status	Published - 2022

Keywords

Moving target indicator
Planar location radar
Range-angle correspondence
Simo system
Sparse array
Stepped frequency waveform

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10.13164/RE.2022.0468

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title = "Enhanced SIMO Radar System Based on Time-Frequency Correlation for Target Localization Applications",

abstract = "This study developed a novel S-band radar system for planar location applications. High-resolution range imaging and target angle estimation were achieved by using a stepped frequency continuous wave (SFCW) signal and single input multiple output (SIMO) architecture with a linear sparse array layout, respectively. An improved time-frequency method was utilized to link the independent range profile and angle spectrum results to obtain the plane positions of the targets. The radar hardware was composed of the antenna array with one transmit element and five receive elements, an RF transceiver, and a signal processing component. Under the proposed waveform parameters and signal processing scheme, a 16-ms process cycle, 0.3-m ranging error, and 0.4° angle estimation error for target positioning were achieved in field tests.",

keywords = "Moving target indicator, Planar location radar, Range-angle correspondence, Simo system, Sparse array, Stepped frequency waveform",

author = "Le Zou and Xuetian Wang and Lihua Zhang and Hongmin Gao",

year = "2022",

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language = "English",

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T1 - Enhanced SIMO Radar System Based on Time-Frequency Correlation for Target Localization Applications

AU - Zou, Le

AU - Wang, Xuetian

AU - Zhang, Lihua

AU - Gao, Hongmin

PY - 2022

Y1 - 2022

N2 - This study developed a novel S-band radar system for planar location applications. High-resolution range imaging and target angle estimation were achieved by using a stepped frequency continuous wave (SFCW) signal and single input multiple output (SIMO) architecture with a linear sparse array layout, respectively. An improved time-frequency method was utilized to link the independent range profile and angle spectrum results to obtain the plane positions of the targets. The radar hardware was composed of the antenna array with one transmit element and five receive elements, an RF transceiver, and a signal processing component. Under the proposed waveform parameters and signal processing scheme, a 16-ms process cycle, 0.3-m ranging error, and 0.4° angle estimation error for target positioning were achieved in field tests.

AB - This study developed a novel S-band radar system for planar location applications. High-resolution range imaging and target angle estimation were achieved by using a stepped frequency continuous wave (SFCW) signal and single input multiple output (SIMO) architecture with a linear sparse array layout, respectively. An improved time-frequency method was utilized to link the independent range profile and angle spectrum results to obtain the plane positions of the targets. The radar hardware was composed of the antenna array with one transmit element and five receive elements, an RF transceiver, and a signal processing component. Under the proposed waveform parameters and signal processing scheme, a 16-ms process cycle, 0.3-m ranging error, and 0.4° angle estimation error for target positioning were achieved in field tests.

KW - Moving target indicator

KW - Planar location radar

KW - Range-angle correspondence

KW - Simo system

KW - Sparse array

KW - Stepped frequency waveform

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Enhanced SIMO Radar System Based on Time-Frequency Correlation for Target Localization Applications

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