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Rapid adaptive iteration method for achieving Doppler wave beam sharpening imaging

A Doppler beam, adaptive iterative technology, applied in the field of scanning radar Doppler beam sharpening imaging, can solve problems such as high computational complexity and unfavorable engineering implementation

Inactive Publication Date: 2017-11-28
UNIV OF ELECTRONICS SCI & TECH OF CHINA
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Problems solved by technology

[0003] In order to improve the imaging quality of Doppler beam sharpening, in the literature "Qi L, Zheng M, Yu W, et al. Super-resolution Doppler beam sharpening imaging based on an iterative adaptive approach [J]. Remote Sensing Letters, 2016, 7( 3):259-268.", a method based on iterative adaptive super-resolution spectrum estimation is adopted, which is applied to Doppler beam sharpening imaging, compared with the traditional Fast Fourier Transform (FFT) method , this method improves the imaging resolution, but it has the disadvantages of high computational complexity, which is not conducive to engineering implementation
In the paper "Yongchao Zhang, Wenchao Li, Yin Zhang. A Fast Iterative Adaptive Approach for Scanning Radar Angular Superresolution, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing.", the author proposes a fast iterative approach based on fast matrix inversion Adaptive (F-IAA) method, the operation matrix of this method must have specific requirements, not suitable for the operation matrix constructed during Doppler beam sharpening imaging

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[0056] To facilitate those skilled in the art to understand the technical content of the present invention, the content of the present invention will be further explained below in conjunction with the accompanying drawings.

[0057] For the convenience of describing the content of the present invention, the following terms are explained herein.

[0058] Term 1: Toeplitz matrix

[0059] Toeplitz matrix (diagonal-constant matrix) means that the elements on each diagonal line from top left to bottom right in the matrix are the same.

[0060] Term 2: Hermitian matrix

[0061] The Hermitian Matrix means that the symmetric units of the complex square matrix A are conjugate to each other, that is, the conjugate transposed matrix of A is equal to itself.

[0062] The present invention proposes a fast iterative adaptive method for realizing Doppler beam sharpening imaging, which uses the Toeplitz and Hermitian matrix characteristics of the covariance matrix to quickly solve the covariance matrix;...

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Abstract

The invention discloses a rapid adaptive iteration method for achieving Doppler wave beam sharpening imaging. According to the invention, by use of covariance matrix rapid calculation and covariance matrix rapid inversion, super-resolution Doppler wave beam sharpening imaging of angles in forward squint regions of aircrafts like airplanes, missiles and the like is achieved, and a problem of high complexity of covariance matrix solving and covariance matrix inversion operation in the traditional direct iteration adaptive method is solved. The method is characterized in that, based on the problems of covariance matrix calculation and covariance matrix inversion in the iteration adaption, by use of properties of a Toeplitz matrix and a Hermitian matrix, the matrix is rapidly obtained by solving a row of elements; by use of the Gohberg Semencul (GS) type decomposition method, rapid solving of inverse matrix of the covariance matrix is achieved; and it is achieved that the Doppler wave beam sharpening imaging of the iteration adaptive method occupies fewer operation resources in engineering application and is quite highly efficient.

Description

Technical field [0001] The invention relates to the field of radar detection and imaging, and is particularly suitable for scanning radar Doppler beam sharpening imaging. Background technique [0002] In the existing pulse Doppler radar system, in the oblique forward direction of the carrier, the Doppler beam sharpening imaging method is usually used to realize the imaging observation of the forward squint area. This method utilizes the Doppler phase change law produced by the mutual movement between the carrier and the target, and improves the azimuth imaging resolution of the radar oblique forward and squint area through the signal processing method. In the traditional Doppler beam sharpening imaging method, the Fast Fourier Transform (FFT) method is used to estimate the Doppler phase change caused by the relative motion of the platform and the target, but the radar azimuth echo is caused by the antenna pattern. The resulting low-pass filtering effect results in lower spectral...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S7/41G01S13/90
CPCG01S7/41G01S13/90G01S13/9047
Inventor 张寅毛德庆徐帆云沙连童张永超黄钰林杨建宇
Owner UNIV OF ELECTRONICS SCI & TECH OF CHINA
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