A 3D Sar Sparse Imaging Method Based on Coprime Array Decomposition and Fusion

An array, three-dimensional technology, applied in the field of synthetic aperture radar imaging and radar, can solve the problems of degraded imaging quality, serious signal crosstalk, difficulty in implementation, etc., to suppress grating lobes and false targets, improve imaging quality, and facilitate system implementation.

Active Publication Date: 2022-05-03
UNIV OF ELECTRONICS SCI & TECH OF CHINA
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Problems solved by technology

If the observation scene is sparse, high-resolution imaging of the target scene can be achieved with a small number of samples, but the random sampling array mode has high hardware complexity and is difficult to implement, while the coprime array uses a pair of shared first Sparse array structure composed of uniform and sparse sampling sub-arrays with array elements and sampling intervals that are relatively prime, the array is simple to implement, and the hardware is easy to implement
However, the number and position of the array elements in the array antenna determine that the cross-correlation between adjacent arrays of the compressed sensing measurement matrix increases, the signal crosstalk is serious, there are false targets in the imaging, and the imaging quality decreases.

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  • A 3D Sar Sparse Imaging Method Based on Coprime Array Decomposition and Fusion

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Embodiment Construction

[0071] The present invention can be verified by computer simulation experiments, and all steps and conclusions are verified correctly on MATLAB-2017b. The specific implementation steps are as follows:

[0072] Step 1. Initialize array SAR system parameters:

[0073] Initialize array SAR system parameters, including: radar carrier wavelength, λ=0.08m; radar transmitting signal carrier frequency, f c =37.5GHz; Radar transmit signal bandwidth, B r =0.8GHz; radar transmit pulse width, denoted as T r = 2μs; radar sampling frequency, denoted as F s =1.25GHz; the frequency modulation slope of the radar transmitting signal, denoted as f dr =4×10 14 ; The incident angle of the radar beam center is recorded as θ=0°; the propagation speed of electromagnetic waves in the air is recorded as C=3×10 8 m / s; the height of the array platform, recorded as H=1000m; the length of the antenna motion track in the azimuth direction, recorded as L_a=3m; the length of the cross-direction array, r...

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Abstract

The present invention discloses and proposes a three-dimensional SAR sparse imaging method based on the decomposition and fusion of coprime arrays. In the method, the coprime array and the subarrays of the coprime array are firstly reconstructed by compressive sensing iterative minimization of sparse Bayesian reconstruction. The (SBRIM) imaging algorithm performs imaging separately to obtain three synthetic aperture radar images, and then fuses the obtained imaging results to obtain the final 3D SAR sparse imaging result based on array decomposition and fusion. The present invention combines the advantages of the coprime sampling method and the compressed sensing sparse reconstruction method. The coprime sampling method can not only reduce the sampling data, but also is easier to realize systematically than the traditional random sampling method; compared with the traditional sparse imaging method, the method of the present invention can Effectively suppress grating lobes and false targets and improve imaging quality.

Description

technical field [0001] The invention belongs to the technical field of radar, in particular to the technical field of synthetic aperture radar (SAR) imaging. Background technique [0002] Synthetic Aperture Radar (SAR), as an all-day, all-weather, and information-rich remote sensing imaging technology, has become an important means of earth observation today. Precision strikes, land and resources exploration, and natural disaster monitoring have been more and more widely used in the national economy and military fields. For details, see the literature "Liu Guoxiang, Ding Xiaoli, Chen Yongqi, etc. A new technology for space earth observation with great potential-Synthetic aperture radar Interference [J]. Advances in Earth Sciences, 2000,15(6):734-740". Traditional SAR imaging generally only has two-dimensional imaging resolution. In places with relatively large ups and downs, such as steep peaks, canyons, and tall buildings in cities, the distortion (shadow occlusion effect,...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01S13/90
Inventor 张晓玲张星月田博坤王阳阳党丽薇
Owner UNIV OF ELECTRONICS SCI & TECH OF CHINA
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