Long-baseline radar net false track identification algorithm based on three-threshold delay determination

A false track and recognition algorithm technology, applied in radio wave measurement systems, instruments, etc., can solve the problems of unsuitable long baseline radar network and high misjudgment rate of false track

Active Publication Date: 2017-03-22
NAVAL AERONAUTICAL UNIV
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Problems solved by technology

[0010] The purpose of the invention is to propose a long-baseline radar network false track recognition algorithm based on three threshold delays to solve the problem that the existing mean value-variance joint inspection method is not suitable for long-baseline radar network and false track misjudgment rate is relatively low. advanced questions

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  • Long-baseline radar net false track identification algorithm based on three-threshold delay determination
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  • Long-baseline radar net false track identification algorithm based on three-threshold delay determination

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[0094] Below in conjunction with accompanying drawing, the long baseline radar network false track identification algorithm based on three threshold delay discrimination of the present invention is described in detail (referring to specification sheet appendix figure 1 ).

[0095] Embodiment conditions: there are three three-coordinate radar networks, and the geographic coordinates of radar 1 are: latitude B 1 =57°, longitude L 1 =30°, height H 1 =500m; the geographic coordinates of radar 2 are: latitude B 2 =55°, longitude L 2 =29°, height H 2 =700m; the geographic coordinates of radar 3 are: latitude B 3 =55°, longitude L 3 =27°, height H 3 =500m; roughly estimated, the distance between radar 1 and radar 2 is about 251km, the distance between radar 1 and radar 3 is about 400km, and the distance between radar 2 and radar 3 is about 222km. It can be seen that the distance between the three radars is relatively long, which needs to be considered The influence of factors...

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Abstract

The invention discloses a long-baseline radar net false track identification algorithm based on three-threshold delay determination, wherein the algorithm belongs to the field of radar countermeasure technology. A false track interference is a novel interference form and has high discriminating difficulty. The long-baseline radar net false track identification algorithm aims to settle the problems and mainly comprises the following steps of (1), converting measurement of each radar to an ECEF coordinate system, and realizing spatial alignment; (2), estimating a target state by means of Kalman filtering and calculating three polar coordinates of a relative radar; (3), constructing a sample and calculating an examination statistics amount gaba; (4), selecting a significance level and establishing a counter with an initial value of zero; (5), if gaban<=G0.5<n>, determining the track as a true track, if gaban>=G0.01<n>, determining the track as a false track, if G0.1<n><gaban<G0.01<n> and n is smaller than 7, adding one to the read number of the counter, and repeating the steps (2)-(5); and (6), if n=7 and the read number of the counter, determining the track as a false track, and otherwise, determining the track as the true track. The long-baseline radar net false track identification algorithm is suitable for identification of the false track by a long-baseline radar net and furthermore has relatively high engineering application value and good popularization prospect.

Description

technical field [0001] The invention belongs to the technical field of radar countermeasures, and is suitable for discriminating true-false targets by a long-baseline radar network under the interference condition of false tracks. Background technique [0002] Radar countermeasures are an important part of the field of electronic countermeasures in modern warfare. With the development of advanced electronic technology, digital radio frequency memory (DRFM) technology is becoming more and more mature, resulting in the emergence of various advanced radar jamming equipment and jamming styles. Radar networks can Effectively use the advantages of multi-angle and multi-frequency bands of radar in the network to effectively counter various interference patterns such as suppression and deception. In order to achieve a better deception effect on the radar network, false track interference came into being. Through the fine planning of false track, the interference can generate false t...

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Application Information

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IPC IPC(8): G01S7/40
CPCG01S7/4052
Inventor 王国宏孙殿星吴巍吉喆谭顺成
Owner NAVAL AERONAUTICAL UNIV
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