Abstract
Distributed radar array brings several new forthcoming advantages in aerospace target detection and imaging. The two-dimensional distributed array avoids the imperfect motion compensation in coherent processing along slow time and can achieve single snapshot 3D imaging. Some difficulties exist in the 3D imaging processing. The first one is that the distributed array may be only in small amount. This means that the sampling does not meet the Nyquist sample theorem. The second one refers to echoes of objects in the same beam that will be mixed together, which makes sparse optimization dictionary too long for it to bring the huge computation burden in the imaging process. In this paper, we propose an innovative method on 3D imaging of the aerospace targets in the wide airspace with sparse radar array. Firstly, the case of multiple targets is not suitable to be processed uniformly in the imaging process. A 3D Hough transform is proposed based on the range profiles plane difference, which can detect and separate the echoes of different targets. Secondly, in the subsequent imaging process, considering the non-uniform sparse sampling of the distributed array in space, the migration through range cell (MTRC)-tolerated imaging method is proposed to process the signal of the two-dimensional sparse array. The uniformized method combining compressed sensing (CS) imaging in the azimuth direction and matched filtering in the range direction can realize the 3D imaging effectively. Before imaging in the azimuth direction, interpolation in the range direction is carried out. The main contributions of the proposed method are: (1) echo separation based on 3D transform avoids the huge amount of computation of direct sparse optimization imaging of three-dimensional data, and ensures the realizability of the algorithm; and (2) uniformized sparse solving imaging is proposed, which can remove the difficulty cause by MTRC. Simulation experiments verified the effectiveness and feasibility of the proposed method.
Highlights
Distributed radar array brings several new forthcoming advantages in aerospace target detection and imaging
The main contributions of this paper are: (1) a multi-target received signal separation method is proposed based on 3D Hough Transform; and (2) uniformized imaging which can overcome difficulties of migration through range cell (MTRC) and large amounts of computation while directly using compressed sensing algorithm to process the 3D data
The signal model should be built according to the geometrical relationship solve the problem of the multi-target echo must be considered
Summary
Radar realizes target detection and ranging by emitting electromagnetic waves which has penetration ability. We utilize 3D Hough transform to separate different targets based on the range profiles plane difference because the transform can detect planes in the 3D image In this way, it’s feasible to solve the problem that the multi-target echo cannot be processed uniformly. The migration through range ceil (MTRC)-tolerated imaging method is proposed in the subsequent imaging process It combines compressed sensing in the azimuth direction and matched filtering in the range direction to overcome the non-uniform sparse sampling of the distributed array in space effectively and avoid the huge amount of computation of 3D data. The main contributions of this paper are: (1) a multi-target received signal separation method is proposed based on 3D Hough Transform; and (2) uniformized imaging which can overcome difficulties of MTRC and large amounts of computation while directly using compressed sensing algorithm to process the 3D data.
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