Area target echo beam center velocity measurement method

A speed measurement and beam center technology, applied in the field of space microwave remote sensing, can solve problems such as unfavorable real-time processing, excessive calculation, and poor estimation error

Active Publication Date: 2014-10-01
XIAN INSTITUE OF SPACE RADIO TECH
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Problems solved by technology

[0004] In order to improve the measurement accuracy of the Doppler signal, it is necessary to eliminate the influence of the Doppler spectrum broadening caused by the acceleration of the lander's motion, so it is necessary to estimate and compensate the acceleration. At present, the existing literature is all about the movement of the point target under the condition of maneuvering For compensation, the maximum likelihood method, the time-frequency analysis method, and the de-chirp method based on the acceleration template can be used to estimate the target acceleration. These methods require too much compu

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  • Area target echo beam center velocity measurement method

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[0123] Define the radar digital echo signal collected by AD as s(n)=s_i(n)+j*s_q(n), the sampling rate corresponding to the two processing modes is 600KHz and 300KHz respectively, and the signal accumulation time under the two sampling rates is respectively 25ms and 50ms, digital signal sampling points are 15000 points;

[0124] The processing steps of the present invention are as follows:

[0125] (1) The radio frequency echo signal received by the antenna is converted and demodulated by the microwave channel to obtain a baseband analog signal, which is converted into a radar digital echo signal by the AD acquisition module s(n)=s_i(n)+j*s_q(n) ;

[0126] (2) Use the Kalman filter to track and filter the velocity results of the previous measurement cycle, and estimate the acceleration;

[0127] observation matrix H = 1 0 ...

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Abstract

The invention discloses an area target echo beam center velocity measurement method. Firstly, echoes are subjected to acceleration compensation; secondly, whether a velocity filtering value is in a near-zone measurement pattern or a far-zone measurement pattern is judged, if the velocity filtering value is in the near-zone measurement pattern, after a frequency spectrum of the echoes is obtained through FFT operation, the Chirp-Z method is used for thinning spectral lines nearby the Doppler velocity to obtain an echo frequency spectrum, and if the velocity filtering value is in the far-zone measurement pattern, the echo frequency spectrum is obtained through the FFT operation, and finally the echo frequency spectrum is subjected to smoothing and envelop interception to obtain a frequency value corresponding to a beam center, so that the velocity value is calculated; finally, the Kalman filtering method is adopted to track the velocity, and the velocity, acceleration and other information at the next moment are predicted. By means of the area target echo beam center velocity measurement method, the requirements for a large dynamic range and high accuracy are met, and measurement accuracy is improved.

Description

technical field [0001] The invention relates to a method for measuring the central velocity of an echo beam, in particular to a method for measuring the central velocity of an echo beam of a continuous wave Doppler radar high-precision surface target, and belongs to the technical field of space microwave remote sensing. Background technique [0002] The continuous wave velocity radar is a key single unit in the lunar deep space exploration and landing project. It provides accurate satellite velocity information for the satellite guidance, navigation and control systems, thereby ensuring the safety of the landing. The measurement accuracy of the continuous wave speed measuring radar is high, and the Doppler frequency of the beam center is calculated by using the Doppler beam center calculation method of the high-precision surface target echo and the Doppler spectrum of the surface target. In addition, continuous wave speed measuring radar has broad application prospects in mi...

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Application Information

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IPC IPC(8): G01S13/58
CPCG01S7/354G01S13/583
Inventor 牛文博谭小敏党红杏王科张爱军孙嘉刘瑞冬
Owner XIAN INSTITUE OF SPACE RADIO TECH
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