Performance Analysis of Multiple Antennas Synthetic False Target Jamming

The radar jamming technology has been studied in this paper mainly, which uses the antenna synthetic wave to generate phase distortion at the signal reception to carry out angle measuring jamming, such as traditional cross-eye jamming. However, cross-eye jamming has strict parameter tolerance. To im...

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Veröffentlicht in:	IEEE access 2022, Vol.10, p.16178-16187
Hauptverfasser:	Ning, Yuhang, Yu, Mengxia
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Sprache:	eng
Schlagworte:	Antenna Antenna measurements Antennas Emitters Interference Jamming Parameters Phase distortion Phase measurement Radar Radar antennas Signal reception tolerance analysis
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description	The radar jamming technology has been studied in this paper mainly, which uses the antenna synthetic wave to generate phase distortion at the signal reception to carry out angle measuring jamming, such as traditional cross-eye jamming. However, cross-eye jamming has strict parameter tolerance. To improve the tolerance range of the phase parameters, a multiple antennas synthetic false target electromagnetic jamming technique is proposed in this paper, which has a wider phase parameter tolerance and jamming range. The jamming method can be regarded as an improved cross eye jamming method. We can conclude that this method can generate a "false target" in space and far away from the carrier which has jamming system, which mislead the radar to point to "false target" rather than to real targets. A jamming system with three jamming antennas was considered as the research object. The position of "false target" can be controlled casually by adjusting the feed amplitude and phase of the three antennas simultaneously. The jamming mathematical model of synthetic false target with three antenna emitters is constructed under the sum and difference channel transceiver mechanism of radar in this paper. The error angle and synthetic gain of the three jamming antennas were derived. The phase parameter tolerance of the proposed method was obtained- and compared with cross-eye jamming. A rigorous mathematical derivation is proposed in this paper, and the superiority of the multiple antennas synthetic false target jamming method is verified.
doi_str_mv	10.1109/ACCESS.2022.3144979
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subjects	Antenna Antenna measurements Antennas Emitters Interference Jamming Parameters Phase distortion Phase measurement Radar Radar antennas Signal reception tolerance analysis
title	Performance Analysis of Multiple Antennas Synthetic False Target Jamming
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