Radar Detection of Small Target in Sea Clutter Using Orthogonal Projection

Sea clutter submerges the small target echo, which is disadvantageous for radar target detection. In this letter, we propose to suppress the sea clutter by orthogonal projection (OP). We construct the clutter subspace directly by the observed data vectors of neighboring range cells of the cell under...

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Bibliographic Details
Published in:IEEE geoscience and remote sensing letters 2019-03, Vol.16 (3), p.382-386
Main Authors: Yang, Yong, Xiao, Shun-Ping, Wang, Xue-Song
Format: Article
Language:English
Subjects:
Clutter
Clutter suppression
Complexity
Computation
Computational complexity
Constant false alarm rate
Detection
Detectors
Doppler radar
Echoes
orthogonal projection (OP)
Radar
Radar clutter
Radar detection
Radar targets
sea clutter
Sensors
Singular value decomposition
small target
Surface clutter
Target detection
Theoretical analysis
Vectors
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Summary:Sea clutter submerges the small target echo, which is disadvantageous for radar target detection. In this letter, we propose to suppress the sea clutter by orthogonal projection (OP). We construct the clutter subspace directly by the observed data vectors of neighboring range cells of the cell under test (CUT), and then suppress the sea clutter of the CUT by projecting the observed signal of the CUT to the clutter orthogonal subspace. We design a new detector which combines the cell averaging constant false alarm rate (CFAR) detector with the OP. The clutter suppression performance and computation complexity of OP are compared with those of singular value decomposition (SVD), respectively. Theoretical analysis and experimental results with real sea clutter demonstrate that the radar CFAR detection performance improves by using OP. And the CFAR detector based on OP is convenient to implement. The CFAR detection performance based on OP is the same as that based on SVD, whereas the computation complexity of OP is much less than that of SVD.
ISSN:1545-598X
1558-0571
DOI:10.1109/LGRS.2018.2875705