Distributed type coherent radar target parameter estimation method based on interpolation compensation
A technology of interpolation compensation and target parameters, which is applied in the field of radar, can solve problems such as increasing the amount of system calculation, least square fitting error, and poor estimation accuracy of maneuvering target parameters, so as to improve real-time performance, estimation accuracy, and The effect of real-time processing efficiency
Active Publication Date: 2019-01-11
XIDIAN UNIV
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The disadvantage of this method is that since the energy accumulation is achieved by registering the phase, it will bring an additional phase to the target echo, causing the estimated target position coordinates to deviate from the real target position coordinates
The disadvantage of this method is that this method introduces the optimization problem of 'overdetermined' nonlinear least squares estimation, which will bring the least squares fitting error to the subsequent maneuvering target parameter estimation, resulting in the maneuvering target parameter Estimated Accuracy Worse
The disadvantage of this method is that in the frequency domain zero padding step, the time domain upsampling to interpolate the correlation results will increase the amount of calculation in the system, resulting in low real-time performance of the system
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[0028] The present invention will be further described below in conjunction with the drawings.
[0029] Reference figure 1 , To further describe the steps of the present invention.
[0030] Step 1. Generate the baseband echo matrix.
[0031] In the distributed coherent system, the echo matrix formed by the echo data of the ground slow moving target received by each receiving unit radar is corrected for system error, and the echo matrix after system error correction is obtained.
[0032] The specific steps of the system error correction are as follows:
[0033] The first step is to use the system error estimation module inside the distributed coherent system to estimate the system error matrix between the receiving unit radars due to the difference of the local oscillator phase and the time synchronization phase.
[0034] The second step is to divide the element at each position in the echo matrix formed by the echo data of the ground slow-moving target scattered by the radar of each rece...
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The invention discloses a distributed type coherent radar target parameter estimation method based on interpolation compensation to solve the problems in the prior art that accuracy of the parameter estimation of a slow moving target of the ground is poor, and real-time processing efficiency is not high. The method comprises the following steps that (1), a baseband echo matrix is generated; (2), the baseband echo matrix is subjected to filter processing; (3), rough position parameters of the ground slow moving target are estimated; (4), the interpolation compensation method is used for estimating fine position parameters of the ground slow moving target; and (5), horizontal and vertical coordinates of the ground slow moving target are found out. Compared with the prior art, parameter estimation accuracy of the distributed type coherent system for the ground slow moving targets is improved, and the real-time processing efficiency of the distributed type coherent system is improved.
Description
Technical field [0001] The invention belongs to the field of radar technology, and further relates to a method for estimating a target parameter of a distributed coherent radar based on interpolation compensation in the field of moving platform radar technology. The invention can use a distributed coherent system to estimate the position coordinates of a slow moving target on the ground. Background technique [0002] When the distributed coherent system works on the sea or detects high-altitude targets, the clutter is relatively weak. At this time, the estimation of target parameters by the distributed coherent system under the background of weak clutter can be regarded as the estimation of target parameters under the background of noise. Distributed coherent system has the advantages of long detection distance and high coherent performance, so it is widely used in detection scenarios that require high parameter accuracy. [0003] Song Jing, Zhang Jianyun, Zheng Zhidong and others...
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IPC IPC(8): G01S7/41
CPCG01S7/41G01S7/414
Inventor 吴建新刘晓瑜王彤陈金铭
Owner XIDIAN UNIV
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