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A method for anti-active deceptive jamming of multi-station radar

A source deception and radar technology, applied to radio wave measurement systems, instruments, etc., can solve the problems of high error rate, signal correlation detection failure, and inability to make full use of multi-station radar, etc., to achieve practical and high efficiency Effect

Active Publication Date: 2017-10-13
XIDIAN UNIV
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  • Claims
  • Application Information

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Problems solved by technology

However, since each node radar in the multi-station radar will be subject to deceptive interference, dense false targets will lead to a high error rate in the correlation test between the measurement values ​​of each node radar, and the location of the multi-station radar is not ideal. also affects the ability of multi-station radars to counter deceptive jamming
[0004] Most of the existing multi-station radars use data-level fusion to counter deceptive jamming. In the process of multi-station radar measurement of targets, only the point track information or track information of the target is used, so that the data-level fusion anti-jamming The method cannot fully exert its anti-interference ability, and thus cannot make full use of the advantages of multi-station radar
[0005] The existing anti-spoofing jamming method is a signal-level fusion method. Although it can make full use of various information of target echoes, it also has many limitations and deficiencies. This signal-level fusion method uses the information of real target echoes in different radar stations. The complex envelopes are independent of each other and the interfering signal complex envelopes are correlated to distinguish true and false targets. The identification effect depends on the number of pulse repetition periods (PRT) in the slow-time complex envelope sequence. In the actual radar working environment, The number of available pulse repetition periods (PRT) is very limited, and even only one pulse repetition period (PRT) can be used, making the method of signal correlation detection completely invalid at this time
At the same time, it is very likely to identify the slow undulating true target as a false target

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Embodiment Construction

[0025] refer to figure 1 , is the flow chart of the implementation of a method for multi-station radar anti-active deceptive jamming of the present invention, and the method for multi-station radar anti-active deceptive interference includes the following steps:

[0026] Step 1, establish a multi-station radar system, the multi-station radar system includes N node radars, and the N node radars receive signals respectively, N is a natural number, and N≥2, and within a pulse repetition time (PRT) Inside, after any node radar in the N node radars performs matched filtering and target detection on the received signal, K+M point targets are obtained; wherein, K represents the number of real point targets existing in the received signal, and M represents The number of false point targets in the received signal.

[0027] Step 2, using the first node radar as a reference radar, perform time alignment operations on K+M point targets and other N-1 node radars, and obtain the point targ...

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Abstract

The invention discloses a method of confronting active deception jamming by a multi-station radar. The method mainly comprises steps: after any node radar is selected to carry out matched filter and target detection on a receiving signal, K+M point targets are obtained, the first node radar serves as a reference radar, time alignment operation is carried out on the K+M point targets and the other N-1 node radars, and an echo amplitude corresponding relation between point targets detected by the N-1 node radars and point targets detected by the reference radar is obtained; echo amplitude of the pth point target on the nth node radar is selected, an amplitude ratio feature vector of the pth point target is obtained, false target determination is set to be a false alarm rate for a real target, a discrimination threshold theta for the N node radars is obtained, the amplitude ratio feature vector omegap of the pth point target is classified to be the pth class, and K+M different classes are obtained, clustering operation is carried out, and a final clustering result is acquired; and finally, a determination threshold value epsilon for false point targets is set, and the false point targets included in the final clustering result are acquired.

Description

technical field [0001] The present invention relates to the technical field of radar anti-jamming, in particular to a multi-station radar anti-active deceptive jamming method, which is suitable for effectively identifying and eliminating deceptive false targets in a networked radar system data fusion center, and realizing multi-station radar system countermeasures deceptive interference. Background technique [0002] Electronic deception technology is dedicated to deceiving the victim radar in terms of information such as direction, position, and tracking starting point, or creating so many false targets around the real target echo that the real target information cannot be extracted. An effective category of electronic spoofing technology is deceptive electronic spoofing technology. The deceptive purpose of this deceptive electronic spoofing technology is to mislead the amplitude, phase and other information of the radar received echo through modulated transmission or forwa...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01S7/36
CPCG01S7/36
Inventor 刘楠李强赵珊珊张林让周宇
Owner XIDIAN UNIV
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