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Method for allowing ground wave over-the-horizon radar to achieve multifrequency transmission and reception simultaneously

A ground wave over-the-horizon and radar technology, applied in the field of radar, can solve the problems of the degradation of radar detection performance and the mutual restriction of parameters, and achieve the effects of less resource occupation, simple configuration and good versatility

Active Publication Date: 2014-04-16
WUHAN UNIV
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Problems solved by technology

However, under the multi-frequency system, the FMICW parameter design will be greatly restricted, and the parameters of each frequency are mutually restricted, especially the distance aliasing problem of each frequency is difficult to overcome. decline

Method used

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  • Method for allowing ground wave over-the-horizon radar to achieve multifrequency transmission and reception simultaneously
  • Method for allowing ground wave over-the-horizon radar to achieve multifrequency transmission and reception simultaneously
  • Method for allowing ground wave over-the-horizon radar to achieve multifrequency transmission and reception simultaneously

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Embodiment Construction

[0017] The present invention will be further described in detail through the embodiments below in conjunction with the accompanying drawings.

[0018] The present invention adopts the following technical solution: different phase offset values ​​are set for different frequency bands of radar work, and according to the phase offset value, phase modulation is performed on the chirp signal emitted by the radar, so that the transmitted signals of different frequencies have different frame The phase offset between them changes the form of its Doppler spectrum and realizes simultaneous multi-frequency transmission / reception of ground wave over-the-horizon radar. The specific implementation method is as follows: at the transmitting end, the frequency synthesis circuit generates multiple transmission signals of different frequencies and different phases, which are combined by the combiner and then transmitted through the antenna; The frequency circuit converts multiple received signal...

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Abstract

The invention relates to a method for allowing a ground wave over-the-horizon radar to achieve multifrequency transmission and reception simultaneously. Expansion of the ground wave over-the-horizon radar from a single-frequency mode to a multifrequency mode is achieved based on an interframe phase linear offset method. At a transmission end, proper phase offset is set according to a sweep frequency period and frequency ways, a frequency synthesis circuit generates a plurality of transmission signals with different frequencies and interframe phase change rates, and the plurality of transmission signals are transmitted through antennas. At a receiver end, a frequency mixing circuit transduces a plurality of reception signals with different frequencies onto the same frequency, echo signals with multiple frequencies are separated on a Doppler after being subjected to twice fast Fourier transform, and therefore, working in multiple frequencies can be achieved. By means of the method, the ground wave over-the-horizon radar can work in multiple frequencies simultaneously, hardware cost is not added, mutual interference caused by working in multiple frequencies simultaneously is avoided, data obtained in different frequencies can be separated easily, and detection performance and detection accuracy of the radar are improved.

Description

technical field [0001] The invention belongs to the technical fields of radar, radio physics, etc., and particularly relates to a method for realizing simultaneous multi-frequency transmission / reception of ground-wave over-the-horizon radar. Background technique [0002] As a new type of marine remote sensing equipment, ground wave over-the-horizon radar equipment can conduct all-weather, over-the-horizon, large-area real-time monitoring of the ocean surface environment and maritime moving targets. At present, most high-frequency ground wave radars at home and abroad have adopted the chirp interrupted continuous wave (FMICW) system, which introduces transceiver modulation technology on the basis of chirp frequency modulated continuous wave (FMCW), which can better solve the reception problem caused by the strong direct wave signal. Machine blocking problem. [0003] Most of the traditional over-the-horizon radars work on a single frequency point, the anti-interference abili...

Claims

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Application Information

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IPC IPC(8): G01S7/28
CPCG01S7/282G01S7/285G01S2013/0227
Inventor 张兰吴雄斌柳剑飞李正勇曹泽明
Owner WUHAN UNIV
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