Multi-target Angle Defuzzification Method Based on Rotating Interferometer

A rotating interferometer and angle blur technology, applied in the field of data processing, can solve the problems of angle blur, algorithm failure, poor positioning accuracy of high-speed moving targets, etc., and achieve the effect of reducing the signal-to-noise ratio requirement.

Active Publication Date: 2021-07-20
XIDIAN UNIV
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] For the traditional processing method: (1) single-star angle measurement positioning, its advantage is that the system is easy to implement, but due to the limitation of antenna aperture and load, the direction finding accuracy is not high, and long-term observation is required, and the positioning accuracy of high-speed moving targets is relatively low. Poor, unable to locate short-term targets
(2) The phase interferometer direction finding technology has the advantages of high precision, real-time performance, and low system complexity. However, this method has the contradiction between the unambiguous viewing angle range and the angle measurement accuracy. The longer the baseline, the higher the angle measurement accuracy. produces more blur
(3) The traditional angle measurement and defuzzification algorithm based on the rotating interferometer can effectively solve the contradiction between the unambiguous viewing angle range and the angle measurement accuracy. The two-dimensional angle estimation can be performed through the phase difference sequence measured at different rotation angles, and the working time can be adjusted. Different same-frequency target source signals are detected, and the multi-target angle estimation is completed through the time difference of each target source. However, it is impossible to distinguish multiple target signal sources working at the same frequency at the same time, and the algorithm fails.
Due to the load limitation, the number of array elements in the spaceborne array is small. When the array is sparsely arranged, there will be angle ambiguity, and the target angle estimation cannot be realized.

Method used

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  • Multi-target Angle Defuzzification Method Based on Rotating Interferometer
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  • Multi-target Angle Defuzzification Method Based on Rotating Interferometer

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Experimental program
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Embodiment 1

[0035]There are problems in the existing spaceborne passive direction finding technology: the traditional interferometer direction finding system can only estimate the two-dimensional angle information of a single target or multiple targets with frequency difference or time difference, and cannot estimate multiple targets working at the same frequency and at the same time For the two-dimensional angle information of the signal, the direction-finding system of the interferometer requires high accuracy of the phase difference between the array elements. In order to obtain an estimation result with a small error, a high signal-to-noise ratio is required; the traditional array direction-finding method can solve the multi-target problem , but to achieve the two-dimensional direction finding of the target, more array elements are required. Due to the load limitation, the number of array elements in the spaceborne array is small, and the aperture of the array is small, so the performan...

Embodiment 2

[0051] The multi-target angle defuzzification method based on the rotating interferometer is the same as in embodiment 1, wherein the phase difference matrix Φ(t) between the rotating interferometer array elements in step (1) is expressed as follows:

[0052]

[0053] Among them, N is the number of interferometer array elements, L is the number of signals in the space, d is the array element spacing, and d>>λ / 2. ω is the angular velocity of the rotating interferometer moving around the first array element in the xOy plane along the counterclockwise uniform circular motion, α 1 ,α 2 ,...,α L ,β 1 ,β 2 ,...,β L are the azimuth angle and elevation angle of each signal respectively, and the signal wavelength is λ. The sampling frequency is f s , the value of t is

[0054] The invention establishes a multi-channel rotating interferometer system. Compared with the two channels of the traditional rotating interferometer, multiple array element channels are added, and the ...

Embodiment 3

[0056] The multi-target angle defuzzification method based on the rotating interferometer is the same as that in Embodiment 1-2, wherein the interference data matrix X received by the multi-channel rotating interferometer at time t in step 2 0 (t), expressed as follows:

[0057]

[0058] Write the above formula as:

[0059] x 0 (t)=Φ(t)S(t)+N(t)

[0060] where x 1 (t),x 2 (t),...,x N (t) is the data received by each array element, s 1 (t),s2 (t),...,s L (t) is the carrier frequency of each space signal, n 1 (t),n 2 (t),...,n N (t) is the Gaussian white noise of each array element channel, which obeys the normal distribution N(0,σ 2 ). x 0 (t) is the received data vector obtained by array sampling, and Φ(t) is an N×L-dimensional phase difference change matrix. S(t) represents the spatial signal, and N(t) represents the noise matrix.

[0061] The present invention uses the mid-spectrum estimation processing method of the array signal in the processing method, so...

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Abstract

The invention discloses a multi-target angle defuzzification method based on a rotating interferometer, which mainly solves the problem of estimating two-dimensional angles of multi-target signal sources working at the same frequency and simultaneously which cannot be solved in the prior art. The implementation steps: obtain the phase difference matrix between the array elements of the multi-channel rotating interferometer; obtain the interference data matrix received by the multi-channel rotating interferometer at different times during the rotation; perform forward spatial smoothing on the data matrix and calculate the smoothed Signal autocorrelation matrix; decompose the eigenvalue of the correlation matrix, calculate the spectral function, and obtain the distribution map of the angle ambiguity curve through spectral peak search; project the angle ambiguity curve into the parameter space, and accumulate the parameters to obtain the two-dimensional angle estimation of different targets. The invention can defuzzify the two-dimensional angles of multiple targets at the same time, and calculate the unambiguous two-dimensional angle information of each target. Two-dimensional angle estimation for spaceborne rotating interferometers in space electronic reconnaissance.

Description

technical field [0001] The invention belongs to the technical field of data processing, and in particular relates to a multi-target angle defuzzification method based on a rotating interferometer, which can be used for two-dimensional angle estimation of a spaceborne rotating interferometer, and further for space electronic reconnaissance. Background technique [0002] With the growth of demand and the development of science and technology, electronic reconnaissance satellites have become an important means of obtaining various intelligence, and have an irreplaceable position in modern warfare. Target location is an important application of electronic reconnaissance satellite, and the target position obtained by it is one of the most important information in reconnaissance information. How to improve the positioning accuracy is the key to the target positioning system. [0003] For the traditional processing method: (1) single-star angle measurement positioning, its advanta...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01S5/06
CPCG01S5/06
Inventor 廖桂生杨志伟申皓明
Owner XIDIAN UNIV
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