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Phase shift migration imaging method and device for mimo array

An offset imaging and phase shifting technology, which is applied in the field of signal processing, can solve problems such as time-consuming, slow calculation speed, imaging quality and time influence, and achieve the effect of continuous imaging quality, favorable imaging, and fast and high-quality imaging

Active Publication Date: 2022-07-19
INST OF ELECTRONICS CHINESE ACAD OF SCI
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Problems solved by technology

The simplest time-domain coherent imaging algorithm is the back projection (BP) algorithm, which uses the integral of the echo data to the array aperture to obtain a reconstructed image. When large, not suitable for real-time imaging
Common frequency-domain imaging algorithms include MIMO-RMA (range migration algorithm, RMA) and PSM algorithm (phase shift migration, PSM) based on MIMO arrays. The PSM algorithm completes image reconstruction in the wavenumber domain. The biggest feature of the PSM algorithm is that it is Perform fast Fourier transform in the azimuth direction, and integrate in the wavenumber domain to achieve distance focus, so that a good quality imaging effect can be obtained. However, due to the integration process of one dimension, the calculation speed is compared with that of the three dimensions using Fourier The MIMO-RMA of the transformation operation is slower; although the RMA operation speed is faster, the stolt interpolation has a very large impact on the quality and time of imaging

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Embodiment Construction

[0061] At present, the traditional phase shift migration algorithm (phase shift migration, PSM) can only be used in arrays with co-located transceivers such as traditional SAR. The present invention aims to introduce a fast three-dimensional imaging algorithm based on MIMO array. Based on the phase shift migration (PSM) algorithm applied to the MIMO array, the most time-consuming integration process of the PSM algorithm is modified and the most time-consuming integration process of the PSM algorithm is modified to make the three dimensions equal. The process of fast Fourier transform is adopted to speed up the imaging speed. In terms of imaging accuracy, the imaging accuracy of the present invention is comparable to that of the BP algorithm, and is superior to RMA, which avoids errors caused by stolt interpolation in RMA. In terms of imaging time, the imaging time of the present invention is much faster than that of the BP algorithm, which is comparable to the RMA.

[0062] ...

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Abstract

A phase shift offset imaging method and device for a MIMO array, the method comprising: receiving an original scattered echo signal obtained after a broadband signal is scattered by a target; transforming the original scattered echo signal to the spatial frequency domain where the MIMO array is located, Determine the original space spectrum; expand the phase shift factor to obtain the fixed distance phase shift factor, fixed wavenumber factor and Fourier transform factor; combine the original space spectrum with the fixed distance phase shift factor and Fourier transform factor to determine the first space spectrum ; Combining the first spatial spectrum with a fixed wavenumber phase shift factor to obtain a second spatial spectrum; and determining the target imaging function according to the second spatial spectrum. The present invention accelerates the imaging speed of the MIMO phase shift migration through reasonable approximation and expansion of the phase shift migration factor, shortens the imaging time and speeds up the imaging speed under the premise of high-quality imaging.

Description

technical field [0001] The present invention relates to the technical field of signal processing, and in particular, to a phase shift offset imaging method and device for a MIMO array. Background technique [0002] MIMO radar imaging methods can be simply divided into two categories: time-domain coherent imaging algorithms and frequency-domain algorithms. The simplest of the time-domain coherent imaging algorithms is the back projection (BP) algorithm, which uses the echo data to integrate the array aperture to obtain the reconstructed image. It is huge and not suitable for real-time imaging. Commonly used frequency domain imaging algorithms include MIMO-RMA (range migration algorithm, RMA) and MIMO array-based PSM algorithm (phase shift migration, PSM). The PSM algorithm completes image reconstruction in the wavenumber domain. The biggest feature of the PSM algorithm is that it Fast Fourier transform is performed in the azimuth direction, and range-direction focusing is a...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01S13/89G01S7/41
CPCG01S7/41G01S13/89
Inventor 李超高航吴世有张群英刘小军方广有
Owner INST OF ELECTRONICS CHINESE ACAD OF SCI
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